MLXZq± grid for rubidium (Rb) for Q = -6: [RbXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -5: [RbXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -4: [RbXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -3: [RbXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -2: [RbXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -1: [RbXxLlZz]-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = 0: [RbXxLlZz]
The number of compounds found is 24.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of rubidium with that [MLXZ]q± classification.
| EN➝ | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[RbL] 0 |
|
[RbL2] 0 |
|
[RbL3] 0 |
|
[RbL4] 0 |
|
[RbL5] 0 |
|
[RbL6] 0 |
|
[RbL7] 0 |
|
[RbL8] 0 |
|
[RbL9] 0 |
|
| X+2Z = 1 | [RbX] 4% |
|
[RbLX] 8% |
|
[RbL2X] 8% |
|
[RbL3X] 8% |
|
[RbL4X] 0 |
|
[RbL5X] 8% |
|
[RbL6X] 17% |
|
[RbL7X] 33% |
|
[RbL8X] 8% |
|
[RbL9X] 4% |
| X+2Z = 2 | |
[RbX2] 0 |
|
[RbLX2] 0 |
|
[RbL2X2] 0 |
|
[RbL3X2] 0 |
|
[RbL4X2] 0 |
|
[RbL5X2] 0 |
|
[RbL6X2] 0 |
|
[RbL7X2] 0 |
|
[RbL8X2] 0 |
|
| X+2Z = 3 | [RbXZ] 0 |
|
[RbX3] 0 |
|
[RbLX3] 0 |
|
[RbL2X3] 0 |
|
[RbL3X3] 0 |
|
[RbL4X3] 0 |
|
[RbL5X3] 0 |
|
[RbL6X3] 0 |
|
[RbL7X3] 0 |
|
[RbL8X3] 0 |
| X+2Z = 4 | |
[RbX2Z] 0 |
|
[RbX4] 0 |
|
[RbLX4] 0 |
|
[RbL2X4] 0 |
|
[RbL3X4] 0 |
|
[RbL4X4] 0 |
|
[RbL5X4] 0 |
|
[RbL6X4] 0 |
|
[RbL7X4] 0 |
|
| X+2Z = 5 | [RbXZ2] 0 |
|
[RbX3Z] 0 |
|
[RbX5] 0 |
|
[RbLX5] 0 |
|
[RbL2X5] 0 |
|
[RbL3X5] 0 |
|
[RbL4X5] 0 |
|
[RbL5X5] 0 |
|
[RbL6X5] 0 |
|
[RbL7X5] 0 |
| X+2Z = 6 | |
[RbX2Z2] 0 |
|
[RbX4Z] 0 |
|
[RbX6] 0 |
|
[RbLX6] 0 |
|
[RbL2X6] 0 |
|
[RbL3X6] 0 |
|
[RbL4X6] 0 |
|
[RbL5X6] 0 |
|
[RbL6X6] 0 |
|
| X+2Z = 7 | [RbXZ3] 0 |
|
[RbX3Z2] 0 |
|
[RbX5Z] 0 |
|
[RbX7] 0 |
|
[RbLX7] 0 |
|
[RbL2X7] 0 |
|
[RbL3X7] 0 |
|
[RbL4X7] 0 |
|
[RbL5X7] 0 |
|
[RbL6X7] 0 |
| X+2Z = 8 | |
[RbX2Z3] 0 |
|
[RbX4Z2] 0 |
|
[RbX6Z] 0 |
|
[RbX8] 0 |
|
[RbLX8] 0 |
|
[RbL2X8] 0 |
|
[RbL3X8] 0 |
|
[RbL4X8] 0 |
|
[RbL5X8] 0 |
|
| X+2Z = 9 | [RbXZ4] 0 |
|
[RbX3Z3] 0 |
|
[RbX5Z2] 0 |
|
[RbX7Z] 0 |
|
[RbX9] 0 |
|
[RbLX9] 0 |
|
[RbL2X9] 0 |
|
[RbL3X9] 0 |
|
[RbL4X9] 0 |
|
[RbL5X9] 0 |
| X+2Z = 10 | |
[RbX2Z4] 0 |
|
[RbX4Z3] 0 |
|
[RbX6Z2] 0 |
|
[RbX8Z] 0 |
|
[RbX10] 0 |
|
[RbLX10] 0 |
|
[RbL2X10] 0 |
|
[RbL3X10] 0 |
|
[RbL4X10] 0 |
|
| X+2Z = 11 | [RbXZ5] 0 |
|
[RbX3Z4] 0 |
|
[RbX5Z3] 0 |
|
[RbX7Z2] 0 |
|
[RbX9Z] 0 |
|
[RbX11] 0 |
|
[RbLX11] 0 |
|
[RbL2X11] 0 |
|
[RbL3X11] 0 |
|
[RbL4X11] 0 |
| X+2Z = 12 | |
[RbX2Z5] 0 |
|
[RbX4Z4] 0 |
|
[RbX6Z3] 0 |
|
[RbX8Z2] 0 |
|
[RbX10Z] 0 |
|
[RbX12] 0 |
|
[RbLX12] 0 |
|
[RbL2X12] 0 |
|
[RbL3X12] 0 |
|
MLXZq± grid for rubidium (Rb) for Q = 1: [RbXxLlZz]+
The number of compounds found is 9.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of rubidium with that [MLXZ]q± classification.
| EN➝ | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [RbL]+ 0 |
|
[RbL2]+ 0 |
|
[RbL3]+ 0 |
|
[RbL4]+ 0 |
|
[RbL5]+ 0 |
|
[RbL6]+ 11% |
|
[RbL7]+ 11% |
|
[RbL8]+ 33% |
|
[RbL9]+ 11% |
|
[RbL10]+ 33% |
| X+2Z = 1 | |
[RbLX]+ 0 |
|
[RbL2X]+ 0 |
|
[RbL3X]+ 0 |
|
[RbL4X]+ 0 |
|
[RbL5X]+ 0 |
|
[RbL6X]+ 0 |
|
[RbL7X]+ 0 |
|
[RbL8X]+ 0 |
|
[RbL9X]+ 0 |
|
| X+2Z = 2 | [RbX2]+ 0 |
|
[RbLX2]+ 0 |
|
[RbL2X2]+ 0 |
|
[RbL3X2]+ 0 |
|
[RbL4X2]+ 0 |
|
[RbL5X2]+ 0 |
|
[RbL6X2]+ 0 |
|
[RbL7X2]+ 0 |
|
[RbL8X2]+ 0 |
|
[RbL9X2]+ 0 |
| X+2Z = 3 | |
[RbX3]+ 0 |
|
[RbLX3]+ 0 |
|
[RbL2X3]+ 0 |
|
[RbL3X3]+ 0 |
|
[RbL4X3]+ 0 |
|
[RbL5X3]+ 0 |
|
[RbL6X3]+ 0 |
|
[RbL7X3]+ 0 |
|
[RbL8X3]+ 0 |
|
| X+2Z = 4 | [RbX2Z]+ 0 |
|
[RbX4]+ 0 |
|
[RbLX4]+ 0 |
|
[RbL2X4]+ 0 |
|
[RbL3X4]+ 0 |
|
[RbL4X4]+ 0 |
|
[RbL5X4]+ 0 |
|
[RbL6X4]+ 0 |
|
[RbL7X4]+ 0 |
|
[RbL8X4]+ 0 |
| X+2Z = 5 | |
[RbX3Z]+ 0 |
|
[RbX5]+ 0 |
|
[RbLX5]+ 0 |
|
[RbL2X5]+ 0 |
|
[RbL3X5]+ 0 |
|
[RbL4X5]+ 0 |
|
[RbL5X5]+ 0 |
|
[RbL6X5]+ 0 |
|
[RbL7X5]+ 0 |
|
| X+2Z = 6 | [RbX2Z2]+ 0 |
|
[RbX4Z]+ 0 |
|
[RbX6]+ 0 |
|
[RbLX6]+ 0 |
|
[RbL2X6]+ 0 |
|
[RbL3X6]+ 0 |
|
[RbL4X6]+ 0 |
|
[RbL5X6]+ 0 |
|
[RbL6X6]+ 0 |
|
[RbL7X6]+ 0 |
| X+2Z = 7 | |
[RbX3Z2]+ 0 |
|
[RbX5Z]+ 0 |
|
[RbX7]+ 0 |
|
[RbLX7]+ 0 |
|
[RbL2X7]+ 0 |
|
[RbL3X7]+ 0 |
|
[RbL4X7]+ 0 |
|
[RbL5X7]+ 0 |
|
[RbL6X7]+ 0 |
|
| X+2Z = 8 | [RbX2Z3]+ 0 |
|
[RbX4Z2]+ 0 |
|
[RbX6Z]+ 0 |
|
[RbX8]+ 0 |
|
[RbLX8]+ 0 |
|
[RbL2X8]+ 0 |
|
[RbL3X8]+ 0 |
|
[RbL4X8]+ 0 |
|
[RbL5X8]+ 0 |
|
[RbL6X8]+ 0 |
| X+2Z = 9 | |
[RbX3Z3]+ 0 |
|
[RbX5Z2]+ 0 |
|
[RbX7Z]+ 0 |
|
[RbX9]+ 0 |
|
[RbLX9]+ 0 |
|
[RbL2X9]+ 0 |
|
[RbL3X9]+ 0 |
|
[RbL4X9]+ 0 |
|
[RbL5X9]+ 0 |
|
| X+2Z = 10 | [RbX2Z4]+ 0 |
|
[RbX4Z3]+ 0 |
|
[RbX6Z2]+ 0 |
|
[RbX8Z]+ 0 |
|
[RbX10]+ 0 |
|
[RbLX10]+ 0 |
|
[RbL2X10]+ 0 |
|
[RbL3X10]+ 0 |
|
[RbL4X10]+ 0 |
|
[RbL5X10]+ 0 |
| X+2Z = 11 | |
[RbX3Z4]+ 0 |
|
[RbX5Z3]+ 0 |
|
[RbX7Z2]+ 0 |
|
[RbX9Z]+ 0 |
|
[RbX11]+ 0 |
|
[RbLX11]+ 0 |
|
[RbL2X11]+ 0 |
|
[RbL3X11]+ 0 |
|
[RbL4X11]+ 0 |
|
| X+2Z = 12 | [RbX2Z5]+ 0 |
|
[RbX4Z4]+ 0 |
|
[RbX6Z3]+ 0 |
|
[RbX8Z2]+ 0 |
|
[RbX10Z]+ 0 |
|
[RbX12]+ 0 |
|
[RbLX12]+ 0 |
|
[RbL2X12]+ 0 |
|
[RbL3X12]+ 0 |
|
[RbL4X12]+ 0 |
MLXZq± grid for rubidium (Rb) for Q = 2: [RbXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = 3: [RbXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = 4: [RbXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for strontium (Sr) for Q = -6: [SrXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for strontium (Sr) for Q = -5: [SrXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for strontium (Sr) for Q = -4: [SrXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for strontium (Sr) for Q = -3: [SrXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for strontium (Sr) for Q = -2: [SrXxLlZz]2-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of strontium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [SrL2]2- 0 |
|
[SrL3]2- 0 |
|
[SrL4]2- 0 |
|
[SrL5]2- 0 |
|
[SrL6]2- 0 |
|
[SrL7]2- 0 |
|
[SrL8]2- 0 |
| X+2Z = 1 | |
[SrL2X]2- 0 |
|
[SrL3X]2- 0 |
|
[SrL4X]2- 0 |
|
[SrL5X]2- 0 |
|
[SrL6X]2- 0 |
|
[SrL7X]2- 0 |
|
| X+2Z = 2 | [SrLX2]2- 0 |
|
[SrL2X2]2- 0 |
|
[SrL3X2]2- 0 |
|
[SrL4X2]2- 0 |
|
[SrL5X2]2- 0 |
|
[SrL6X2]2- 0 |
|
[SrL7X2]2- 0 |
| X+2Z = 3 | |
[SrLX3]2- 0 |
|
[SrL2X3]2- 0 |
|
[SrL3X3]2- 0 |
|
[SrL4X3]2- 0 |
|
[SrL5X3]2- 0 |
|
[SrL6X3]2- 0 |
|
| X+2Z = 4 | [SrX4]2- 0 |
|
[SrLX4]2- 0 |
|
[SrL2X4]2- 0 |
|
[SrL3X4]2- 0 |
|
[SrL4X4]2- 0 |
|
[SrL5X4]2- 100% |
|
[SrL6X4]2- 0 |
| X+2Z = 5 | |
[SrX5]2- 0 |
|
[SrLX5]2- 0 |
|
[SrL2X5]2- 0 |
|
[SrL3X5]2- 0 |
|
[SrL4X5]2- 0 |
|
[SrL5X5]2- 0 |
|
| X+2Z = 6 | [SrX4Z]2- 0 |
|
[SrX6]2- 0 |
|
[SrLX6]2- 0 |
|
[SrL2X6]2- 0 |
|
[SrL3X6]2- 0 |
|
[SrL4X6]2- 0 |
|
[SrL5X6]2- 0 |
| X+2Z = 7 | |
[SrX5Z]2- 0 |
|
[SrX7]2- 0 |
|
[SrLX7]2- 0 |
|
[SrL2X7]2- 0 |
|
[SrL3X7]2- 0 |
|
[SrL4X7]2- 0 |
|
| X+2Z = 8 | [SrX4Z2]2- 0 |
|
[SrX6Z]2- 0 |
|
[SrX8]2- 0 |
|
[SrLX8]2- 0 |
|
[SrL2X8]2- 0 |
|
[SrL3X8]2- 0 |
|
[SrL4X8]2- 0 |
| X+2Z = 9 | |
[SrX5Z2]2- 0 |
|
[SrX7Z]2- 0 |
|
[SrX9]2- 0 |
|
[SrLX9]2- 0 |
|
[SrL2X9]2- 0 |
|
[SrL3X9]2- 0 |
|
| X+2Z = 10 | [SrX4Z3]2- 0 |
|
[SrX6Z2]2- 0 |
|
[SrX8Z]2- 0 |
|
[SrX10]2- 0 |
|
[SrLX10]2- 0 |
|
[SrL2X10]2- 0 |
|
[SrL3X10]2- 0 |
| X+2Z = 11 | |
[SrX5Z3]2- 0 |
|
[SrX7Z2]2- 0 |
|
[SrX9Z]2- 0 |
|
[SrX11]2- 0 |
|
[SrLX11]2- 0 |
|
[SrL2X11]2- 0 |
|
| X+2Z = 12 | [SrX4Z4]2- 0 |
|
[SrX6Z3]2- 0 |
|
[SrX8Z2]2- 0 |
|
[SrX10Z]2- 0 |
|
[SrX12]2- 0 |
|
[SrLX12]2- 0 |
|
[SrL2X12]2- 0 |
MLXZq± grid for strontium (Sr) for Q = -1: [SrXxLlZz]-
The number of compounds found is 0.
MLXZq± grid for strontium (Sr) for Q = 0: [SrXxLlZz]
The number of compounds found is 97.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of strontium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [SrL3] 0 |
|
[SrL4] 0 |
|
[SrL5] 0 |
|
[SrL6] 0 |
|
[SrL7] 0 |
|
[SrL8] 0 |
|
[SrL9] 0 |
| X+2Z = 1 | |
[SrL3X] 0 |
|
[SrL4X] 0 |
|
[SrL5X] 0 |
|
[SrL6X] 0 |
|
[SrL7X] 0 |
|
[SrL8X] 0 |
|
| X+2Z = 2 | [SrL2X2] 2% |
|
[SrL3X2] 8% |
|
[SrL4X2] 29% |
|
[SrL5X2] 16% |
|
[SrL6X2] 29% |
|
[SrL7X2] 8% |
|
[SrL8X2] 7% |
| X+2Z = 3 | |
[SrL2X3] 0 |
|
[SrL3X3] 0 |
|
[SrL4X3] 0 |
|
[SrL5X3] 0 |
|
[SrL6X3] 0 |
|
[SrL7X3] 0 |
|
| X+2Z = 4 | [SrLX4] 0 |
|
[SrL2X4] 0 |
|
[SrL3X4] 0 |
|
[SrL4X4] 0 |
|
[SrL5X4] 0 |
|
[SrL6X4] 0 |
|
[SrL7X4] 0 |
| X+2Z = 5 | |
[SrLX5] 0 |
|
[SrL2X5] 0 |
|
[SrL3X5] 0 |
|
[SrL4X5] 0 |
|
[SrL5X5] 0 |
|
[SrL6X5] 0 |
|
| X+2Z = 6 | [SrX6] 0 |
|
[SrLX6] 0 |
|
[SrL2X6] 0 |
|
[SrL3X6] 0 |
|
[SrL4X6] 0 |
|
[SrL5X6] 0 |
|
[SrL6X6] 0 |
| X+2Z = 7 | |
[SrX7] 0 |
|
[SrLX7] 0 |
|
[SrL2X7] 0 |
|
[SrL3X7] 0 |
|
[SrL4X7] 0 |
|
[SrL5X7] 0 |
|
| X+2Z = 8 | [SrX6Z] 0 |
|
[SrX8] 0 |
|
[SrLX8] 0 |
|
[SrL2X8] 0 |
|
[SrL3X8] 0 |
|
[SrL4X8] 0 |
|
[SrL5X8] 0 |
| X+2Z = 9 | |
[SrX7Z] 0 |
|
[SrX9] 0 |
|
[SrLX9] 0 |
|
[SrL2X9] 0 |
|
[SrL3X9] 0 |
|
[SrL4X9] 0 |
|
| X+2Z = 10 | [SrX6Z2] 0 |
|
[SrX8Z] 0 |
|
[SrX10] 0 |
|
[SrLX10] 0 |
|
[SrL2X10] 0 |
|
[SrL3X10] 0 |
|
[SrL4X10] 0 |
| X+2Z = 11 | |
[SrX7Z2] 0 |
|
[SrX9Z] 0 |
|
[SrX11] 0 |
|
[SrLX11] 0 |
|
[SrL2X11] 0 |
|
[SrL3X11] 0 |
|
| X+2Z = 12 | [SrX6Z3] 0 |
|
[SrX8Z2] 0 |
|
[SrX10Z] 0 |
|
[SrX12] 0 |
|
[SrLX12] 0 |
|
[SrL2X12] 0 |
|
[SrL3X12] 0 |
MLXZq± grid for strontium (Sr) for Q = 1: [SrXxLlZz]+
The number of compounds found is 4.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of strontium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[SrL4]+ 0 |
|
[SrL5]+ 0 |
|
[SrL6]+ 0 |
|
[SrL7]+ 0 |
|
[SrL8]+ 0 |
|
[SrL9]+ 0 |
|
| X+2Z = 1 | [SrL3X]+ 0 |
|
[SrL4X]+ 0 |
|
[SrL5X]+ 25% |
|
[SrL6X]+ 0 |
|
[SrL7X]+ 25% |
|
[SrL8X]+ 25% |
|
[SrL9X]+ 25% |
| X+2Z = 2 | |
[SrL3X2]+ 0 |
|
[SrL4X2]+ 0 |
|
[SrL5X2]+ 0 |
|
[SrL6X2]+ 0 |
|
[SrL7X2]+ 0 |
|
[SrL8X2]+ 0 |
|
| X+2Z = 3 | [SrL2X3]+ 0 |
|
[SrL3X3]+ 0 |
|
[SrL4X3]+ 0 |
|
[SrL5X3]+ 0 |
|
[SrL6X3]+ 0 |
|
[SrL7X3]+ 0 |
|
[SrL8X3]+ 0 |
| X+2Z = 4 | |
[SrL2X4]+ 0 |
|
[SrL3X4]+ 0 |
|
[SrL4X4]+ 0 |
|
[SrL5X4]+ 0 |
|
[SrL6X4]+ 0 |
|
[SrL7X4]+ 0 |
|
| X+2Z = 5 | [SrLX5]+ 0 |
|
[SrL2X5]+ 0 |
|
[SrL3X5]+ 0 |
|
[SrL4X5]+ 0 |
|
[SrL5X5]+ 0 |
|
[SrL6X5]+ 0 |
|
[SrL7X5]+ 0 |
| X+2Z = 6 | |
[SrLX6]+ 0 |
|
[SrL2X6]+ 0 |
|
[SrL3X6]+ 0 |
|
[SrL4X6]+ 0 |
|
[SrL5X6]+ 0 |
|
[SrL6X6]+ 0 |
|
| X+2Z = 7 | [SrX7]+ 0 |
|
[SrLX7]+ 0 |
|
[SrL2X7]+ 0 |
|
[SrL3X7]+ 0 |
|
[SrL4X7]+ 0 |
|
[SrL5X7]+ 0 |
|
[SrL6X7]+ 0 |
| X+2Z = 8 | |
[SrX8]+ 0 |
|
[SrLX8]+ 0 |
|
[SrL2X8]+ 0 |
|
[SrL3X8]+ 0 |
|
[SrL4X8]+ 0 |
|
[SrL5X8]+ 0 |
|
| X+2Z = 9 | [SrX7Z]+ 0 |
|
[SrX9]+ 0 |
|
[SrLX9]+ 0 |
|
[SrL2X9]+ 0 |
|
[SrL3X9]+ 0 |
|
[SrL4X9]+ 0 |
|
[SrL5X9]+ 0 |
| X+2Z = 10 | |
[SrX8Z]+ 0 |
|
[SrX10]+ 0 |
|
[SrLX10]+ 0 |
|
[SrL2X10]+ 0 |
|
[SrL3X10]+ 0 |
|
[SrL4X10]+ 0 |
|
| X+2Z = 11 | [SrX7Z2]+ 0 |
|
[SrX9Z]+ 0 |
|
[SrX11]+ 0 |
|
[SrLX11]+ 0 |
|
[SrL2X11]+ 0 |
|
[SrL3X11]+ 0 |
|
[SrL4X11]+ 0 |
| X+2Z = 12 | |
[SrX8Z2]+ 0 |
|
[SrX10Z]+ 0 |
|
[SrX12]+ 0 |
|
[SrLX12]+ 0 |
|
[SrL2X12]+ 0 |
|
[SrL3X12]+ 0 |
|
MLXZq± grid for strontium (Sr) for Q = 2: [SrXxLlZz]2+
The number of compounds found is 26.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of strontium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [SrL4]2+ 0 |
|
[SrL5]2+ 0 |
|
[SrL6]2+ 12% |
|
[SrL7]2+ 4% |
|
[SrL8]2+ 38% |
|
[SrL9]2+ 31% |
|
[SrL10]2+ 15% |
| X+2Z = 1 | |
[SrL4X]2+ 0 |
|
[SrL5X]2+ 0 |
|
[SrL6X]2+ 0 |
|
[SrL7X]2+ 0 |
|
[SrL8X]2+ 0 |
|
[SrL9X]2+ 0 |
|
| X+2Z = 2 | [SrL3X2]2+ 0 |
|
[SrL4X2]2+ 0 |
|
[SrL5X2]2+ 0 |
|
[SrL6X2]2+ 0 |
|
[SrL7X2]2+ 0 |
|
[SrL8X2]2+ 0 |
|
[SrL9X2]2+ 0 |
| X+2Z = 3 | |
[SrL3X3]2+ 0 |
|
[SrL4X3]2+ 0 |
|
[SrL5X3]2+ 0 |
|
[SrL6X3]2+ 0 |
|
[SrL7X3]2+ 0 |
|
[SrL8X3]2+ 0 |
|
| X+2Z = 4 | [SrL2X4]2+ 0 |
|
[SrL3X4]2+ 0 |
|
[SrL4X4]2+ 0 |
|
[SrL5X4]2+ 0 |
|
[SrL6X4]2+ 0 |
|
[SrL7X4]2+ 0 |
|
[SrL8X4]2+ 0 |
| X+2Z = 5 | |
[SrL2X5]2+ 0 |
|
[SrL3X5]2+ 0 |
|
[SrL4X5]2+ 0 |
|
[SrL5X5]2+ 0 |
|
[SrL6X5]2+ 0 |
|
[SrL7X5]2+ 0 |
|
| X+2Z = 6 | [SrLX6]2+ 0 |
|
[SrL2X6]2+ 0 |
|
[SrL3X6]2+ 0 |
|
[SrL4X6]2+ 0 |
|
[SrL5X6]2+ 0 |
|
[SrL6X6]2+ 0 |
|
[SrL7X6]2+ 0 |
| X+2Z = 7 | |
[SrLX7]2+ 0 |
|
[SrL2X7]2+ 0 |
|
[SrL3X7]2+ 0 |
|
[SrL4X7]2+ 0 |
|
[SrL5X7]2+ 0 |
|
[SrL6X7]2+ 0 |
|
| X+2Z = 8 | [SrX8]2+ 0 |
|
[SrLX8]2+ 0 |
|
[SrL2X8]2+ 0 |
|
[SrL3X8]2+ 0 |
|
[SrL4X8]2+ 0 |
|
[SrL5X8]2+ 0 |
|
[SrL6X8]2+ 0 |
| X+2Z = 9 | |
[SrX9]2+ 0 |
|
[SrLX9]2+ 0 |
|
[SrL2X9]2+ 0 |
|
[SrL3X9]2+ 0 |
|
[SrL4X9]2+ 0 |
|
[SrL5X9]2+ 0 |
|
| X+2Z = 10 | [SrX8Z]2+ 0 |
|
[SrX10]2+ 0 |
|
[SrLX10]2+ 0 |
|
[SrL2X10]2+ 0 |
|
[SrL3X10]2+ 0 |
|
[SrL4X10]2+ 0 |
|
[SrL5X10]2+ 0 |
| X+2Z = 11 | |
[SrX9Z]2+ 0 |
|
[SrX11]2+ 0 |
|
[SrLX11]2+ 0 |
|
[SrL2X11]2+ 0 |
|
[SrL3X11]2+ 0 |
|
[SrL4X11]2+ 0 |
|
| X+2Z = 12 | [SrX8Z2]2+ 0 |
|
[SrX10Z]2+ 0 |
|
[SrX12]2+ 0 |
|
[SrLX12]2+ 0 |
|
[SrL2X12]2+ 0 |
|
[SrL3X12]2+ 0 |
|
[SrL4X12]2+ 0 |
MLXZq± grid for strontium (Sr) for Q = 3: [SrXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for strontium (Sr) for Q = 4: [SrXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for yttrium (Y) for Q = -6: [YXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for yttrium (Y) for Q = -5: [YXxLlZz]5-
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of yttrium with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [YZ]5- 0 |
|
[Y]5- 0 |
|
[YL]5- 0 |
|
[YL2]5- 0 |
|
[YL3]5- 0 |
|
[YL4]5- 0 |
|
[YL5]5- 0 |
|
[YL6]5- 0 |
| X+2Z = 1 | |
[YZ]5- 0 |
|
[YX]5- 0 |
|
[YLX]5- 0 |
|
[YL2X]5- 0 |
|
[YL3X]5- 0 |
|
[YL4X]5- 0 |
|
[YL5X]5- 0 |
|
| X+2Z = 2 | [YZ2]5- 0 |
|
[YZ]5- 0 |
|
[YX2]5- 0 |
|
[YLX2]5- 0 |
|
[YL2X2]5- 0 |
|
[YL3X2]5- 0 |
|
[YL4X2]5- 0 |
|
[YL5X2]5- 0 |
| X+2Z = 3 | |
[YZ2]5- 0 |
|
[YXZ]5- 0 |
|
[YX3]5- 0 |
|
[YLX3]5- 0 |
|
[YL2X3]5- 0 |
|
[YL3X3]5- 0 |
|
[YL4X3]5- 0 |
|
| X+2Z = 4 | [YZ3]5- 0 |
|
[YZ2]5- 0 |
|
[YX2Z]5- 0 |
|
[YX4]5- 0 |
|
[YLX4]5- 0 |
|
[YL2X4]5- 0 |
|
[YL3X4]5- 0 |
|
[YL4X4]5- 0 |
| X+2Z = 5 | |
[YZ3]5- 0 |
|
[YXZ2]5- 0 |
|
[YX3Z]5- 0 |
|
[YX5]5- 0 |
|
[YLX5]5- 0 |
|
[YL2X5]5- 0 |
|
[YL3X5]5- 0 |
|
| X+2Z = 6 | [YZ4]5- 0 |
|
[YZ3]5- 0 |
|
[YX2Z2]5- 0 |
|
[YX4Z]5- 0 |
|
[YX6]5- 0 |
|
[YLX6]5- 0 |
|
[YL2X6]5- 0 |
|
[YL3X6]5- 0 |
| X+2Z = 7 | |
[YZ4]5- 0 |
|
[YXZ3]5- 0 |
|
[YX3Z2]5- 0 |
|
[YX5Z]5- 0 |
|
[YX7]5- 0 |
|
[YLX7]5- 0 |
|
[YL2X7]5- 0 |
|
| X+2Z = 8 | [YZ5]5- 0 |
|
[YZ4]5- 0 |
|
[YX2Z3]5- 0 |
|
[YX4Z2]5- 0 |
|
[YX6Z]5- 0 |
|
[YX8]5- 100% |
|
[YLX8]5- 0 |
|
[YL2X8]5- 0 |
| X+2Z = 9 | |
[YZ5]5- 0 |
|
[YXZ4]5- 0 |
|
[YX3Z3]5- 0 |
|
[YX5Z2]5- 0 |
|
[YX7Z]5- 0 |
|
[YX9]5- 0 |
|
[YLX9]5- 0 |
|
| X+2Z = 10 | [YZ6]5- 0 |
|
[YZ5]5- 0 |
|
[YX2Z4]5- 0 |
|
[YX4Z3]5- 0 |
|
[YX6Z2]5- 0 |
|
[YX8Z]5- 0 |
|
[YX10]5- 0 |
|
[YLX10]5- 0 |
| X+2Z = 11 | |
[YZ6]5- 0 |
|
[YXZ5]5- 0 |
|
[YX3Z4]5- 0 |
|
[YX5Z3]5- 0 |
|
[YX7Z2]5- 0 |
|
[YX9Z]5- 0 |
|
[YX11]5- 0 |
|
| X+2Z = 12 | [YZ7]5- 0 |
|
[YZ6]5- 0 |
|
[YX2Z5]5- 0 |
|
[YX4Z4]5- 0 |
|
[YX6Z3]5- 0 |
|
[YX8Z2]5- 0 |
|
[YX10Z]5- 0 |
|
[YX12]5- 0 |
MLXZq± grid for yttrium (Y) for Q = -4: [YXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for yttrium (Y) for Q = -3: [YXxLlZz]3-
The number of compounds found is 7.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of yttrium with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Y]3- 0 |
|
[YL]3- 0 |
|
[YL2]3- 0 |
|
[YL3]3- 0 |
|
[YL4]3- 0 |
|
[YL5]3- 0 |
|
[YL6]3- 0 |
|
[YL7]3- 0 |
| X+2Z = 1 | |
[YX]3- 0 |
|
[YLX]3- 0 |
|
[YL2X]3- 0 |
|
[YL3X]3- 0 |
|
[YL4X]3- 0 |
|
[YL5X]3- 0 |
|
[YL6X]3- 0 |
|
| X+2Z = 2 | [YZ]3- 0 |
|
[YX2]3- 0 |
|
[YLX2]3- 0 |
|
[YL2X2]3- 0 |
|
[YL3X2]3- 0 |
|
[YL4X2]3- 0 |
|
[YL5X2]3- 0 |
|
[YL6X2]3- 0 |
| X+2Z = 3 | |
[YXZ]3- 0 |
|
[YX3]3- 0 |
|
[YLX3]3- 0 |
|
[YL2X3]3- 0 |
|
[YL3X3]3- 0 |
|
[YL4X3]3- 0 |
|
[YL5X3]3- 0 |
|
| X+2Z = 4 | [YZ2]3- 0 |
|
[YX2Z]3- 0 |
|
[YX4]3- 0 |
|
[YLX4]3- 0 |
|
[YL2X4]3- 0 |
|
[YL3X4]3- 0 |
|
[YL4X4]3- 0 |
|
[YL5X4]3- 0 |
| X+2Z = 5 | |
[YXZ2]3- 0 |
|
[YX3Z]3- 0 |
|
[YX5]3- 0 |
|
[YLX5]3- 0 |
|
[YL2X5]3- 0 |
|
[YL3X5]3- 0 |
|
[YL4X5]3- 0 |
|
| X+2Z = 6 | [YZ3]3- 0 |
|
[YX2Z2]3- 0 |
|
[YX4Z]3- 0 |
|
[YX6]3- 57% |
|
[YLX6]3- 14% |
|
[YL2X6]3- 0 |
|
[YL3X6]3- 29% |
|
[YL4X6]3- 0 |
| X+2Z = 7 | |
[YXZ3]3- 0 |
|
[YX3Z2]3- 0 |
|
[YX5Z]3- 0 |
|
[YX7]3- 0 |
|
[YLX7]3- 0 |
|
[YL2X7]3- 0 |
|
[YL3X7]3- 0 |
|
| X+2Z = 8 | [YZ4]3- 0 |
|
[YX2Z3]3- 0 |
|
[YX4Z2]3- 0 |
|
[YX6Z]3- 0 |
|
[YX8]3- 0 |
|
[YLX8]3- 0 |
|
[YL2X8]3- 0 |
|
[YL3X8]3- 0 |
| X+2Z = 9 | |
[YXZ4]3- 0 |
|
[YX3Z3]3- 0 |
|
[YX5Z2]3- 0 |
|
[YX7Z]3- 0 |
|
[YX9]3- 0 |
|
[YLX9]3- 0 |
|
[YL2X9]3- 0 |
|
| X+2Z = 10 | [YZ5]3- 0 |
|
[YX2Z4]3- 0 |
|
[YX4Z3]3- 0 |
|
[YX6Z2]3- 0 |
|
[YX8Z]3- 0 |
|
[YX10]3- 0 |
|
[YLX10]3- 0 |
|
[YL2X10]3- 0 |
| X+2Z = 11 | |
[YXZ5]3- 0 |
|
[YX3Z4]3- 0 |
|
[YX5Z3]3- 0 |
|
[YX7Z2]3- 0 |
|
[YX9Z]3- 0 |
|
[YX11]3- 0 |
|
[YLX11]3- 0 |
|
| X+2Z = 12 | [YZ6]3- 0 |
|
[YX2Z5]3- 0 |
|
[YX4Z4]3- 0 |
|
[YX6Z3]3- 0 |
|
[YX8Z2]3- 0 |
|
[YX10Z]3- 0 |
|
[YX12]3- 0 |
|
[YLX12]3- 0 |
MLXZq± grid for yttrium (Y) for Q = -2: [YXxLlZz]2-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of yttrium with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[YL]2- 0 |
|
[YL2]2- 0 |
|
[YL3]2- 0 |
|
[YL4]2- 0 |
|
[YL5]2- 0 |
|
[YL6]2- 0 |
|
[YL7]2- 0 |
|
| X+2Z = 1 | [YX]2- 0 |
|
[YLX]2- 0 |
|
[YL2X]2- 0 |
|
[YL3X]2- 0 |
|
[YL4X]2- 0 |
|
[YL5X]2- 0 |
|
[YL6X]2- 0 |
|
[YL7X]2- 0 |
| X+2Z = 2 | |
[YX2]2- 0 |
|
[YLX2]2- 0 |
|
[YL2X2]2- 0 |
|
[YL3X2]2- 0 |
|
[YL4X2]2- 0 |
|
[YL5X2]2- 0 |
|
[YL6X2]2- 0 |
|
| X+2Z = 3 | [YXZ]2- 0 |
|
[YX3]2- 0 |
|
[YLX3]2- 0 |
|
[YL2X3]2- 0 |
|
[YL3X3]2- 0 |
|
[YL4X3]2- 0 |
|
[YL5X3]2- 0 |
|
[YL6X3]2- 0 |
| X+2Z = 4 | |
[YX2Z]2- 0 |
|
[YX4]2- 0 |
|
[YLX4]2- 0 |
|
[YL2X4]2- 0 |
|
[YL3X4]2- 0 |
|
[YL4X4]2- 0 |
|
[YL5X4]2- 0 |
|
| X+2Z = 5 | [YXZ2]2- 0 |
|
[YX3Z]2- 0 |
|
[YX5]2- 0 |
|
[YLX5]2- 0 |
|
[YL2X5]2- 0 |
|
[YL3X5]2- 50% |
|
[YL4X5]2- 0 |
|
[YL5X5]2- 50% |
| X+2Z = 6 | |
[YX2Z2]2- 0 |
|
[YX4Z]2- 0 |
|
[YX6]2- 0 |
|
[YLX6]2- 0 |
|
[YL2X6]2- 0 |
|
[YL3X6]2- 0 |
|
[YL4X6]2- 0 |
|
| X+2Z = 7 | [YXZ3]2- 0 |
|
[YX3Z2]2- 0 |
|
[YX5Z]2- 0 |
|
[YX7]2- 0 |
|
[YLX7]2- 0 |
|
[YL2X7]2- 0 |
|
[YL3X7]2- 0 |
|
[YL4X7]2- 0 |
| X+2Z = 8 | |
[YX2Z3]2- 0 |
|
[YX4Z2]2- 0 |
|
[YX6Z]2- 0 |
|
[YX8]2- 0 |
|
[YLX8]2- 0 |
|
[YL2X8]2- 0 |
|
[YL3X8]2- 0 |
|
| X+2Z = 9 | [YXZ4]2- 0 |
|
[YX3Z3]2- 0 |
|
[YX5Z2]2- 0 |
|
[YX7Z]2- 0 |
|
[YX9]2- 0 |
|
[YLX9]2- 0 |
|
[YL2X9]2- 0 |
|
[YL3X9]2- 0 |
| X+2Z = 10 | |
[YX2Z4]2- 0 |
|
[YX4Z3]2- 0 |
|
[YX6Z2]2- 0 |
|
[YX8Z]2- 0 |
|
[YX10]2- 0 |
|
[YLX10]2- 0 |
|
[YL2X10]2- 0 |
|
| X+2Z = 11 | [YXZ5]2- 0 |
|
[YX3Z4]2- 0 |
|
[YX5Z3]2- 0 |
|
[YX7Z2]2- 0 |
|
[YX9Z]2- 0 |
|
[YX11]2- 0 |
|
[YLX11]2- 0 |
|
[YL2X11]2- 0 |
| X+2Z = 12 | |
[YX2Z5]2- 0 |
|
[YX4Z4]2- 0 |
|
[YX6Z3]2- 0 |
|
[YX8Z2]2- 0 |
|
[YX10Z]2- 0 |
|
[YX12]2- 0 |
|
[YLX12]2- 0 |
|
MLXZq± grid for yttrium (Y) for Q = -1: [YXxLlZz]-
The number of compounds found is 15.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of yttrium with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [YL]- 0 |
|
[YL2]- 0 |
|
[YL3]- 0 |
|
[YL4]- 0 |
|
[YL5]- 0 |
|
[YL6]- 0 |
|
[YL7]- 0 |
|
[YL8]- 0 |
| X+2Z = 1 | |
[YLX]- 0 |
|
[YL2X]- 0 |
|
[YL3X]- 0 |
|
[YL4X]- 0 |
|
[YL5X]- 0 |
|
[YL6X]- 0 |
|
[YL7X]- 0 |
|
| X+2Z = 2 | [YX2]- 0 |
|
[YLX2]- 0 |
|
[YL2X2]- 0 |
|
[YL3X2]- 0 |
|
[YL4X2]- 0 |
|
[YL5X2]- 0 |
|
[YL6X2]- 0 |
|
[YL7X2]- 0 |
| X+2Z = 3 | |
[YX3]- 0 |
|
[YLX3]- 0 |
|
[YL2X3]- 0 |
|
[YL3X3]- 0 |
|
[YL4X3]- 0 |
|
[YL5X3]- 0 |
|
[YL6X3]- 7% |
|
| X+2Z = 4 | [YX2Z]- 0 |
|
[YX4]- 0 |
|
[YLX4]- 0 |
|
[YL2X4]- 33% |
|
[YL3X4]- 0 |
|
[YL4X4]- 33% |
|
[YL5X4]- 7% |
|
[YL6X4]- 20% |
| X+2Z = 5 | |
[YX3Z]- 0 |
|
[YX5]- 0 |
|
[YLX5]- 0 |
|
[YL2X5]- 0 |
|
[YL3X5]- 0 |
|
[YL4X5]- 0 |
|
[YL5X5]- 0 |
|
| X+2Z = 6 | [YX2Z2]- 0 |
|
[YX4Z]- 0 |
|
[YX6]- 0 |
|
[YLX6]- 0 |
|
[YL2X6]- 0 |
|
[YL3X6]- 0 |
|
[YL4X6]- 0 |
|
[YL5X6]- 0 |
| X+2Z = 7 | |
[YX3Z2]- 0 |
|
[YX5Z]- 0 |
|
[YX7]- 0 |
|
[YLX7]- 0 |
|
[YL2X7]- 0 |
|
[YL3X7]- 0 |
|
[YL4X7]- 0 |
|
| X+2Z = 8 | [YX2Z3]- 0 |
|
[YX4Z2]- 0 |
|
[YX6Z]- 0 |
|
[YX8]- 0 |
|
[YLX8]- 0 |
|
[YL2X8]- 0 |
|
[YL3X8]- 0 |
|
[YL4X8]- 0 |
| X+2Z = 9 | |
[YX3Z3]- 0 |
|
[YX5Z2]- 0 |
|
[YX7Z]- 0 |
|
[YX9]- 0 |
|
[YLX9]- 0 |
|
[YL2X9]- 0 |
|
[YL3X9]- 0 |
|
| X+2Z = 10 | [YX2Z4]- 0 |
|
[YX4Z3]- 0 |
|
[YX6Z2]- 0 |
|
[YX8Z]- 0 |
|
[YX10]- 0 |
|
[YLX10]- 0 |
|
[YL2X10]- 0 |
|
[YL3X10]- 0 |
| X+2Z = 11 | |
[YX3Z4]- 0 |
|
[YX5Z3]- 0 |
|
[YX7Z2]- 0 |
|
[YX9Z]- 0 |
|
[YX11]- 0 |
|
[YLX11]- 0 |
|
[YL2X11]- 0 |
|
| X+2Z = 12 | [YX2Z5]- 0 |
|
[YX4Z4]- 0 |
|
[YX6Z3]- 0 |
|
[YX8Z2]- 0 |
|
[YX10Z]- 0 |
|
[YX12]- 0 |
|
[YLX12]- 0 |
|
[YL2X12]- 0 |
MLXZq± grid for yttrium (Y) for Q = 0: [YXxLlZz]
The number of compounds found is 150.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of yttrium with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[YL2] 0 |
|
[YL3] 0 |
|
[YL4] 0 |
|
[YL5] 0 |
|
[YL6] 0 |
|
[YL7] 0 |
|
[YL8] 0 |
|
| X+2Z = 1 | [YLX] 0 |
|
[YL2X] 0 |
|
[YL3X] 0 |
|
[YL4X] 0 |
|
[YL5X] 0 |
|
[YL6X] 0 |
|
[YL7X] 0 |
|
[YL8X] 0 |
| X+2Z = 2 | |
[YLX2] 0 |
|
[YL2X2] 0 |
|
[YL3X2] 0 |
|
[YL4X2] 0 |
|
[YL5X2] 0 |
|
[YL6X2] 0 |
|
[YL7X2] 0 |
|
| X+2Z = 3 | [YX3] 1% |
|
[YLX3] 1% |
|
[YL2X3] 3% |
|
[YL3X3] 17% |
|
[YL4X3] 15% |
|
[YL5X3] 36% |
|
[YL6X3] 23% |
|
[YL7X3] 3% |
| X+2Z = 4 | |
[YX4] 0 |
|
[YLX4] 0 |
|
[YL2X4] 0 |
|
[YL3X4] 0 |
|
[YL4X4] 0 |
|
[YL5X4] 0 |
|
[YL6X4] 0 |
|
| X+2Z = 5 | [YX3Z] 0 |
|
[YX5] 0 |
|
[YLX5] 0 |
|
[YL2X5] 0 |
|
[YL3X5] 0 |
|
[YL4X5] 0 |
|
[YL5X5] 0 |
|
[YL6X5] 0 |
| X+2Z = 6 | |
[YX4Z] 0 |
|
[YX6] 0 |
|
[YLX6] 0 |
|
[YL2X6] 0 |
|
[YL3X6] 0 |
|
[YL4X6] 0 |
|
[YL5X6] 0 |
|
| X+2Z = 7 | [YX3Z2] 0 |
|
[YX5Z] 0 |
|
[YX7] 0 |
|
[YLX7] 0 |
|
[YL2X7] 0 |
|
[YL3X7] 0 |
|
[YL4X7] 0 |
|
[YL5X7] 0 |
| X+2Z = 8 | |
[YX4Z2] 0 |
|
[YX6Z] 0 |
|
[YX8] 0 |
|
[YLX8] 0 |
|
[YL2X8] 0 |
|
[YL3X8] 0 |
|
[YL4X8] 0 |
|
| X+2Z = 9 | [YX3Z3] 0 |
|
[YX5Z2] 0 |
|
[YX7Z] 0 |
|
[YX9] 0 |
|
[YLX9] 0 |
|
[YL2X9] 0 |
|
[YL3X9] 0 |
|
[YL4X9] 0 |
| X+2Z = 10 | |
[YX4Z3] 0 |
|
[YX6Z2] 0 |
|
[YX8Z] 0 |
|
[YX10] 0 |
|
[YLX10] 0 |
|
[YL2X10] 0 |
|
[YL3X10] 0 |
|
| X+2Z = 11 | [YX3Z4] 0 |
|
[YX5Z3] 0 |
|
[YX7Z2] 0 |
|
[YX9Z] 0 |
|
[YX11] 0 |
|
[YLX11] 0 |
|
[YL2X11] 0 |
|
[YL3X11] 0 |
| X+2Z = 12 | |
[YX4Z4] 0 |
|
[YX6Z3] 0 |
|
[YX8Z2] 0 |
|
[YX10Z] 0 |
|
[YX12] 0 |
|
[YLX12] 0 |
|
[YL2X12] 0 |
|
MLXZq± grid for yttrium (Y) for Q = 1: [YXxLlZz]+
The number of compounds found is 31.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of yttrium with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [YL2]+ 0 |
|
[YL3]+ 0 |
|
[YL4]+ 0 |
|
[YL5]+ 0 |
|
[YL6]+ 0 |
|
[YL7]+ 0 |
|
[YL8]+ 0 |
|
[YL9]+ 0 |
| X+2Z = 1 | |
[YL2X]+ 0 |
|
[YL3X]+ 0 |
|
[YL4X]+ 0 |
|
[YL5X]+ 0 |
|
[YL6X]+ 0 |
|
[YL7X]+ 0 |
|
[YL8X]+ 0 |
|
| X+2Z = 2 | [YLX2]+ 0 |
|
[YL2X2]+ 0 |
|
[YL3X2]+ 0 |
|
[YL4X2]+ 16% |
|
[YL5X2]+ 29% |
|
[YL6X2]+ 48% |
|
[YL7X2]+ 6% |
|
[YL8X2]+ 0 |
| X+2Z = 3 | |
[YLX3]+ 0 |
|
[YL2X3]+ 0 |
|
[YL3X3]+ 0 |
|
[YL4X3]+ 0 |
|
[YL5X3]+ 0 |
|
[YL6X3]+ 0 |
|
[YL7X3]+ 0 |
|
| X+2Z = 4 | [YX4]+ 0 |
|
[YLX4]+ 0 |
|
[YL2X4]+ 0 |
|
[YL3X4]+ 0 |
|
[YL4X4]+ 0 |
|
[YL5X4]+ 0 |
|
[YL6X4]+ 0 |
|
[YL7X4]+ 0 |
| X+2Z = 5 | |
[YX5]+ 0 |
|
[YLX5]+ 0 |
|
[YL2X5]+ 0 |
|
[YL3X5]+ 0 |
|
[YL4X5]+ 0 |
|
[YL5X5]+ 0 |
|
[YL6X5]+ 0 |
|
| X+2Z = 6 | [YX4Z]+ 0 |
|
[YX6]+ 0 |
|
[YLX6]+ 0 |
|
[YL2X6]+ 0 |
|
[YL3X6]+ 0 |
|
[YL4X6]+ 0 |
|
[YL5X6]+ 0 |
|
[YL6X6]+ 0 |
| X+2Z = 7 | |
[YX5Z]+ 0 |
|
[YX7]+ 0 |
|
[YLX7]+ 0 |
|
[YL2X7]+ 0 |
|
[YL3X7]+ 0 |
|
[YL4X7]+ 0 |
|
[YL5X7]+ 0 |
|
| X+2Z = 8 | [YX4Z2]+ 0 |
|
[YX6Z]+ 0 |
|
[YX8]+ 0 |
|
[YLX8]+ 0 |
|
[YL2X8]+ 0 |
|
[YL3X8]+ 0 |
|
[YL4X8]+ 0 |
|
[YL5X8]+ 0 |
| X+2Z = 9 | |
[YX5Z2]+ 0 |
|
[YX7Z]+ 0 |
|
[YX9]+ 0 |
|
[YLX9]+ 0 |
|
[YL2X9]+ 0 |
|
[YL3X9]+ 0 |
|
[YL4X9]+ 0 |
|
| X+2Z = 10 | [YX4Z3]+ 0 |
|
[YX6Z2]+ 0 |
|
[YX8Z]+ 0 |
|
[YX10]+ 0 |
|
[YLX10]+ 0 |
|
[YL2X10]+ 0 |
|
[YL3X10]+ 0 |
|
[YL4X10]+ 0 |
| X+2Z = 11 | |
[YX5Z3]+ 0 |
|
[YX7Z2]+ 0 |
|
[YX9Z]+ 0 |
|
[YX11]+ 0 |
|
[YLX11]+ 0 |
|
[YL2X11]+ 0 |
|
[YL3X11]+ 0 |
|
| X+2Z = 12 | [YX4Z4]+ 0 |
|
[YX6Z3]+ 0 |
|
[YX8Z2]+ 0 |
|
[YX10Z]+ 0 |
|
[YX12]+ 0 |
|
[YLX12]+ 0 |
|
[YL2X12]+ 0 |
|
[YL3X12]+ 0 |
MLXZq± grid for yttrium (Y) for Q = 2: [YXxLlZz]2+
The number of compounds found is 17.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of yttrium with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[YL3]2+ 0 |
|
[YL4]2+ 0 |
|
[YL5]2+ 0 |
|
[YL6]2+ 0 |
|
[YL7]2+ 0 |
|
[YL8]2+ 0 |
|
[YL9]2+ 0 |
|
| X+2Z = 1 | [YL2X]2+ 0 |
|
[YL3X]2+ 0 |
|
[YL4X]2+ 0 |
|
[YL5X]2+ 0 |
|
[YL6X]2+ 24% |
|
[YL7X]2+ 59% |
|
[YL8X]2+ 18% |
|
[YL9X]2+ 0 |
| X+2Z = 2 | |
[YL2X2]2+ 0 |
|
[YL3X2]2+ 0 |
|
[YL4X2]2+ 0 |
|
[YL5X2]2+ 0 |
|
[YL6X2]2+ 0 |
|
[YL7X2]2+ 0 |
|
[YL8X2]2+ 0 |
|
| X+2Z = 3 | [YLX3]2+ 0 |
|
[YL2X3]2+ 0 |
|
[YL3X3]2+ 0 |
|
[YL4X3]2+ 0 |
|
[YL5X3]2+ 0 |
|
[YL6X3]2+ 0 |
|
[YL7X3]2+ 0 |
|
[YL8X3]2+ 0 |
| X+2Z = 4 | |
[YLX4]2+ 0 |
|
[YL2X4]2+ 0 |
|
[YL3X4]2+ 0 |
|
[YL4X4]2+ 0 |
|
[YL5X4]2+ 0 |
|
[YL6X4]2+ 0 |
|
[YL7X4]2+ 0 |
|
| X+2Z = 5 | [YX5]2+ 0 |
|
[YLX5]2+ 0 |
|
[YL2X5]2+ 0 |
|
[YL3X5]2+ 0 |
|
[YL4X5]2+ 0 |
|
[YL5X5]2+ 0 |
|
[YL6X5]2+ 0 |
|
[YL7X5]2+ 0 |
| X+2Z = 6 | |
[YX6]2+ 0 |
|
[YLX6]2+ 0 |
|
[YL2X6]2+ 0 |
|
[YL3X6]2+ 0 |
|
[YL4X6]2+ 0 |
|
[YL5X6]2+ 0 |
|
[YL6X6]2+ 0 |
|
| X+2Z = 7 | [YX5Z]2+ 0 |
|
[YX7]2+ 0 |
|
[YLX7]2+ 0 |
|
[YL2X7]2+ 0 |
|
[YL3X7]2+ 0 |
|
[YL4X7]2+ 0 |
|
[YL5X7]2+ 0 |
|
[YL6X7]2+ 0 |
| X+2Z = 8 | |
[YX6Z]2+ 0 |
|
[YX8]2+ 0 |
|
[YLX8]2+ 0 |
|
[YL2X8]2+ 0 |
|
[YL3X8]2+ 0 |
|
[YL4X8]2+ 0 |
|
[YL5X8]2+ 0 |
|
| X+2Z = 9 | [YX5Z2]2+ 0 |
|
[YX7Z]2+ 0 |
|
[YX9]2+ 0 |
|
[YLX9]2+ 0 |
|
[YL2X9]2+ 0 |
|
[YL3X9]2+ 0 |
|
[YL4X9]2+ 0 |
|
[YL5X9]2+ 0 |
| X+2Z = 10 | |
[YX6Z2]2+ 0 |
|
[YX8Z]2+ 0 |
|
[YX10]2+ 0 |
|
[YLX10]2+ 0 |
|
[YL2X10]2+ 0 |
|
[YL3X10]2+ 0 |
|
[YL4X10]2+ 0 |
|
| X+2Z = 11 | [YX5Z3]2+ 0 |
|
[YX7Z2]2+ 0 |
|
[YX9Z]2+ 0 |
|
[YX11]2+ 0 |
|
[YLX11]2+ 0 |
|
[YL2X11]2+ 0 |
|
[YL3X11]2+ 0 |
|
[YL4X11]2+ 0 |
| X+2Z = 12 | |
[YX6Z3]2+ 0 |
|
[YX8Z2]2+ 0 |
|
[YX10Z]2+ 0 |
|
[YX12]2+ 0 |
|
[YLX12]2+ 0 |
|
[YL2X12]2+ 0 |
|
[YL3X12]2+ 0 |
|
MLXZq± grid for yttrium (Y) for Q = 3: [YXxLlZz]3+
The number of compounds found is 26.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of yttrium with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [YL3]3+ 0 |
|
[YL4]3+ 0 |
|
[YL5]3+ 0 |
|
[YL6]3+ 15% |
|
[YL7]3+ 15% |
|
[YL8]3+ 46% |
|
[YL9]3+ 23% |
|
[YL10]3+ 0 |
| X+2Z = 1 | |
[YL3X]3+ 0 |
|
[YL4X]3+ 0 |
|
[YL5X]3+ 0 |
|
[YL6X]3+ 0 |
|
[YL7X]3+ 0 |
|
[YL8X]3+ 0 |
|
[YL9X]3+ 0 |
|
| X+2Z = 2 | [YL2X2]3+ 0 |
|
[YL3X2]3+ 0 |
|
[YL4X2]3+ 0 |
|
[YL5X2]3+ 0 |
|
[YL6X2]3+ 0 |
|
[YL7X2]3+ 0 |
|
[YL8X2]3+ 0 |
|
[YL9X2]3+ 0 |
| X+2Z = 3 | |
[YL2X3]3+ 0 |
|
[YL3X3]3+ 0 |
|
[YL4X3]3+ 0 |
|
[YL5X3]3+ 0 |
|
[YL6X3]3+ 0 |
|
[YL7X3]3+ 0 |
|
[YL8X3]3+ 0 |
|
| X+2Z = 4 | [YLX4]3+ 0 |
|
[YL2X4]3+ 0 |
|
[YL3X4]3+ 0 |
|
[YL4X4]3+ 0 |
|
[YL5X4]3+ 0 |
|
[YL6X4]3+ 0 |
|
[YL7X4]3+ 0 |
|
[YL8X4]3+ 0 |
| X+2Z = 5 | |
[YLX5]3+ 0 |
|
[YL2X5]3+ 0 |
|
[YL3X5]3+ 0 |
|
[YL4X5]3+ 0 |
|
[YL5X5]3+ 0 |
|
[YL6X5]3+ 0 |
|
[YL7X5]3+ 0 |
|
| X+2Z = 6 | [YX6]3+ 0 |
|
[YLX6]3+ 0 |
|
[YL2X6]3+ 0 |
|
[YL3X6]3+ 0 |
|
[YL4X6]3+ 0 |
|
[YL5X6]3+ 0 |
|
[YL6X6]3+ 0 |
|
[YL7X6]3+ 0 |
| X+2Z = 7 | |
[YX7]3+ 0 |
|
[YLX7]3+ 0 |
|
[YL2X7]3+ 0 |
|
[YL3X7]3+ 0 |
|
[YL4X7]3+ 0 |
|
[YL5X7]3+ 0 |
|
[YL6X7]3+ 0 |
|
| X+2Z = 8 | [YX6Z]3+ 0 |
|
[YX8]3+ 0 |
|
[YLX8]3+ 0 |
|
[YL2X8]3+ 0 |
|
[YL3X8]3+ 0 |
|
[YL4X8]3+ 0 |
|
[YL5X8]3+ 0 |
|
[YL6X8]3+ 0 |
| X+2Z = 9 | |
[YX7Z]3+ 0 |
|
[YX9]3+ 0 |
|
[YLX9]3+ 0 |
|
[YL2X9]3+ 0 |
|
[YL3X9]3+ 0 |
|
[YL4X9]3+ 0 |
|
[YL5X9]3+ 0 |
|
| X+2Z = 10 | [YX6Z2]3+ 0 |
|
[YX8Z]3+ 0 |
|
[YX10]3+ 0 |
|
[YLX10]3+ 0 |
|
[YL2X10]3+ 0 |
|
[YL3X10]3+ 0 |
|
[YL4X10]3+ 0 |
|
[YL5X10]3+ 0 |
| X+2Z = 11 | |
[YX7Z2]3+ 0 |
|
[YX9Z]3+ 0 |
|
[YX11]3+ 0 |
|
[YLX11]3+ 0 |
|
[YL2X11]3+ 0 |
|
[YL3X11]3+ 0 |
|
[YL4X11]3+ 0 |
|
| X+2Z = 12 | [YX6Z3]3+ 0 |
|
[YX8Z2]3+ 0 |
|
[YX10Z]3+ 0 |
|
[YX12]3+ 0 |
|
[YLX12]3+ 0 |
|
[YL2X12]3+ 0 |
|
[YL3X12]3+ 0 |
|
[YL4X12]3+ 0 |
MLXZq± grid for yttrium (Y) for Q = 4: [YXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for zirconium (Zr) for Q = -6: [ZrXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for zirconium (Zr) for Q = -5: [ZrXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for zirconium (Zr) for Q = -4: [ZrXxLlZz]4-
The number of compounds found is 4.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Zr]4- 0 |
|
[ZrL]4- 0 |
|
[ZrL2]4- 0 |
|
[ZrL3]4- 0 |
|
[ZrL4]4- 0 |
|
[ZrL5]4- 0 |
|
[ZrL6]4- 0 |
| X+2Z = 1 | |
[ZrX]4- 0 |
|
[ZrLX]4- 0 |
|
[ZrL2X]4- 0 |
|
[ZrL3X]4- 0 |
|
[ZrL4X]4- 0 |
|
[ZrL5X]4- 0 |
|
| X+2Z = 2 | [ZrZ]4- 0 |
|
[ZrX2]4- 0 |
|
[ZrLX2]4- 0 |
|
[ZrL2X2]4- 0 |
|
[ZrL3X2]4- 0 |
|
[ZrL4X2]4- 0 |
|
[ZrL5X2]4- 0 |
| X+2Z = 3 | |
[ZrXZ]4- 0 |
|
[ZrX3]4- 0 |
|
[ZrLX3]4- 0 |
|
[ZrL2X3]4- 0 |
|
[ZrL3X3]4- 0 |
|
[ZrL4X3]4- 0 |
|
| X+2Z = 4 | [ZrZ2]4- 0 |
|
[ZrX2Z]4- 0 |
|
[ZrX4]4- 0 |
|
[ZrLX4]4- 0 |
|
[ZrL2X4]4- 0 |
|
[ZrL3X4]4- 0 |
|
[ZrL4X4]4- 0 |
| X+2Z = 5 | |
[ZrXZ2]4- 0 |
|
[ZrX3Z]4- 0 |
|
[ZrX5]4- 0 |
|
[ZrLX5]4- 0 |
|
[ZrL2X5]4- 0 |
|
[ZrL3X5]4- 0 |
|
| X+2Z = 6 | [ZrZ3]4- 0 |
|
[ZrX2Z2]4- 0 |
|
[ZrX4Z]4- 0 |
|
[ZrX6]4- 0 |
|
[ZrLX6]4- 0 |
|
[ZrL2X6]4- 0 |
|
[ZrL3X6]4- 0 |
| X+2Z = 7 | |
[ZrXZ3]4- 0 |
|
[ZrX3Z2]4- 0 |
|
[ZrX5Z]4- 0 |
|
[ZrX7]4- 0 |
|
[ZrLX7]4- 0 |
|
[ZrL2X7]4- 0 |
|
| X+2Z = 8 | [ZrZ4]4- 0 |
|
[ZrX2Z3]4- 0 |
|
[ZrX4Z2]4- 0 |
|
[ZrX6Z]4- 0 |
|
[ZrX8]4- 100% |
|
[ZrLX8]4- 0 |
|
[ZrL2X8]4- 0 |
| X+2Z = 9 | |
[ZrXZ4]4- 0 |
|
[ZrX3Z3]4- 0 |
|
[ZrX5Z2]4- 0 |
|
[ZrX7Z]4- 0 |
|
[ZrX9]4- 0 |
|
[ZrLX9]4- 0 |
|
| X+2Z = 10 | [ZrZ5]4- 0 |
|
[ZrX2Z4]4- 0 |
|
[ZrX4Z3]4- 0 |
|
[ZrX6Z2]4- 0 |
|
[ZrX8Z]4- 0 |
|
[ZrX10]4- 0 |
|
[ZrLX10]4- 0 |
| X+2Z = 11 | |
[ZrXZ5]4- 0 |
|
[ZrX3Z4]4- 0 |
|
[ZrX5Z3]4- 0 |
|
[ZrX7Z2]4- 0 |
|
[ZrX9Z]4- 0 |
|
[ZrX11]4- 0 |
|
| X+2Z = 12 | [ZrZ6]4- 0 |
|
[ZrX2Z5]4- 0 |
|
[ZrX4Z4]4- 0 |
|
[ZrX6Z3]4- 0 |
|
[ZrX8Z2]4- 0 |
|
[ZrX10Z]4- 0 |
|
[ZrX12]4- 0 |
MLXZq± grid for zirconium (Zr) for Q = -3: [ZrXxLlZz]3-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[ZrL]3- 0 |
|
[ZrL2]3- 0 |
|
[ZrL3]3- 0 |
|
[ZrL4]3- 0 |
|
[ZrL5]3- 0 |
|
[ZrL6]3- 0 |
|
| X+2Z = 1 | [ZrX]3- 0 |
|
[ZrLX]3- 0 |
|
[ZrL2X]3- 0 |
|
[ZrL3X]3- 0 |
|
[ZrL4X]3- 0 |
|
[ZrL5X]3- 0 |
|
[ZrL6X]3- 0 |
| X+2Z = 2 | |
[ZrX2]3- 0 |
|
[ZrLX2]3- 0 |
|
[ZrL2X2]3- 0 |
|
[ZrL3X2]3- 0 |
|
[ZrL4X2]3- 0 |
|
[ZrL5X2]3- 0 |
|
| X+2Z = 3 | [ZrXZ]3- 0 |
|
[ZrX3]3- 0 |
|
[ZrLX3]3- 0 |
|
[ZrL2X3]3- 0 |
|
[ZrL3X3]3- 0 |
|
[ZrL4X3]3- 0 |
|
[ZrL5X3]3- 0 |
| X+2Z = 4 | |
[ZrX2Z]3- 0 |
|
[ZrX4]3- 0 |
|
[ZrLX4]3- 0 |
|
[ZrL2X4]3- 0 |
|
[ZrL3X4]3- 0 |
|
[ZrL4X4]3- 0 |
|
| X+2Z = 5 | [ZrXZ2]3- 0 |
|
[ZrX3Z]3- 0 |
|
[ZrX5]3- 0 |
|
[ZrLX5]3- 0 |
|
[ZrL2X5]3- 0 |
|
[ZrL3X5]3- 0 |
|
[ZrL4X5]3- 0 |
| X+2Z = 6 | |
[ZrX2Z2]3- 0 |
|
[ZrX4Z]3- 0 |
|
[ZrX6]3- 0 |
|
[ZrLX6]3- 0 |
|
[ZrL2X6]3- 0 |
|
[ZrL3X6]3- 0 |
|
| X+2Z = 7 | [ZrXZ3]3- 0 |
|
[ZrX3Z2]3- 0 |
|
[ZrX5Z]3- 0 |
|
[ZrX7]3- 50% |
|
[ZrLX7]3- 50% |
|
[ZrL2X7]3- 0 |
|
[ZrL3X7]3- 0 |
| X+2Z = 8 | |
[ZrX2Z3]3- 0 |
|
[ZrX4Z2]3- 0 |
|
[ZrX6Z]3- 0 |
|
[ZrX8]3- 0 |
|
[ZrLX8]3- 0 |
|
[ZrL2X8]3- 0 |
|
| X+2Z = 9 | [ZrXZ4]3- 0 |
|
[ZrX3Z3]3- 0 |
|
[ZrX5Z2]3- 0 |
|
[ZrX7Z]3- 0 |
|
[ZrX9]3- 0 |
|
[ZrLX9]3- 0 |
|
[ZrL2X9]3- 0 |
| X+2Z = 10 | |
[ZrX2Z4]3- 0 |
|
[ZrX4Z3]3- 0 |
|
[ZrX6Z2]3- 0 |
|
[ZrX8Z]3- 0 |
|
[ZrX10]3- 0 |
|
[ZrLX10]3- 0 |
|
| X+2Z = 11 | [ZrXZ5]3- 0 |
|
[ZrX3Z4]3- 0 |
|
[ZrX5Z3]3- 0 |
|
[ZrX7Z2]3- 0 |
|
[ZrX9Z]3- 0 |
|
[ZrX11]3- 0 |
|
[ZrLX11]3- 0 |
| X+2Z = 12 | |
[ZrX2Z5]3- 0 |
|
[ZrX4Z4]3- 0 |
|
[ZrX6Z3]3- 0 |
|
[ZrX8Z2]3- 0 |
|
[ZrX10Z]3- 0 |
|
[ZrX12]3- 0 |
|
MLXZq± grid for zirconium (Zr) for Q = -2: [ZrXxLlZz]2-
The number of compounds found is 18.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [ZrL]2- 0 |
|
[ZrL2]2- 0 |
|
[ZrL3]2- 0 |
|
[ZrL4]2- 0 |
|
[ZrL5]2- 0 |
|
[ZrL6]2- 6% |
|
[ZrL7]2- 0 |
| X+2Z = 1 | |
[ZrLX]2- 0 |
|
[ZrL2X]2- 0 |
|
[ZrL3X]2- 0 |
|
[ZrL4X]2- 0 |
|
[ZrL5X]2- 0 |
|
[ZrL6X]2- 0 |
|
| X+2Z = 2 | [ZrX2]2- 0 |
|
[ZrLX2]2- 0 |
|
[ZrL2X2]2- 0 |
|
[ZrL3X2]2- 0 |
|
[ZrL4X2]2- 0 |
|
[ZrL5X2]2- 6% |
|
[ZrL6X2]2- 0 |
| X+2Z = 3 | |
[ZrX3]2- 0 |
|
[ZrLX3]2- 0 |
|
[ZrL2X3]2- 0 |
|
[ZrL3X3]2- 0 |
|
[ZrL4X3]2- 0 |
|
[ZrL5X3]2- 0 |
|
| X+2Z = 4 | [ZrX2Z]2- 0 |
|
[ZrX4]2- 0 |
|
[ZrLX4]2- 0 |
|
[ZrL2X4]2- 0 |
|
[ZrL3X4]2- 0 |
|
[ZrL4X4]2- 6% |
|
[ZrL5X4]2- 0 |
| X+2Z = 5 | |
[ZrX3Z]2- 0 |
|
[ZrX5]2- 0 |
|
[ZrLX5]2- 0 |
|
[ZrL2X5]2- 0 |
|
[ZrL3X5]2- 0 |
|
[ZrL4X5]2- 0 |
|
| X+2Z = 6 | [ZrX2Z2]2- 0 |
|
[ZrX4Z]2- 0 |
|
[ZrX6]2- 61% |
|
[ZrLX6]2- 6% |
|
[ZrL2X6]2- 11% |
|
[ZrL3X6]2- 6% |
|
[ZrL4X6]2- 0 |
| X+2Z = 7 | |
[ZrX3Z2]2- 0 |
|
[ZrX5Z]2- 0 |
|
[ZrX7]2- 0 |
|
[ZrLX7]2- 0 |
|
[ZrL2X7]2- 0 |
|
[ZrL3X7]2- 0 |
|
| X+2Z = 8 | [ZrX2Z3]2- 0 |
|
[ZrX4Z2]2- 0 |
|
[ZrX6Z]2- 0 |
|
[ZrX8]2- 0 |
|
[ZrLX8]2- 0 |
|
[ZrL2X8]2- 0 |
|
[ZrL3X8]2- 0 |
| X+2Z = 9 | |
[ZrX3Z3]2- 0 |
|
[ZrX5Z2]2- 0 |
|
[ZrX7Z]2- 0 |
|
[ZrX9]2- 0 |
|
[ZrLX9]2- 0 |
|
[ZrL2X9]2- 0 |
|
| X+2Z = 10 | [ZrX2Z4]2- 0 |
|
[ZrX4Z3]2- 0 |
|
[ZrX6Z2]2- 0 |
|
[ZrX8Z]2- 0 |
|
[ZrX10]2- 0 |
|
[ZrLX10]2- 0 |
|
[ZrL2X10]2- 0 |
| X+2Z = 11 | |
[ZrX3Z4]2- 0 |
|
[ZrX5Z3]2- 0 |
|
[ZrX7Z2]2- 0 |
|
[ZrX9Z]2- 0 |
|
[ZrX11]2- 0 |
|
[ZrLX11]2- 0 |
|
| X+2Z = 12 | [ZrX2Z5]2- 0 |
|
[ZrX4Z4]2- 0 |
|
[ZrX6Z3]2- 0 |
|
[ZrX8Z2]2- 0 |
|
[ZrX10Z]2- 0 |
|
[ZrX12]2- 0 |
|
[ZrLX12]2- 0 |
MLXZq± grid for zirconium (Zr) for Q = -1: [ZrXxLlZz]-
The number of compounds found is 18.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[ZrL2]- 0 |
|
[ZrL3]- 0 |
|
[ZrL4]- 0 |
|
[ZrL5]- 0 |
|
[ZrL6]- 0 |
|
[ZrL7]- 0 |
|
| X+2Z = 1 | [ZrLX]- 0 |
|
[ZrL2X]- 0 |
|
[ZrL3X]- 0 |
|
[ZrL4X]- 0 |
|
[ZrL5X]- 0 |
|
[ZrL6X]- 6% |
|
[ZrL7X]- 0 |
| X+2Z = 2 | |
[ZrLX2]- 0 |
|
[ZrL2X2]- 0 |
|
[ZrL3X2]- 0 |
|
[ZrL4X2]- 0 |
|
[ZrL5X2]- 0 |
|
[ZrL6X2]- 0 |
|
| X+2Z = 3 | [ZrX3]- 0 |
|
[ZrLX3]- 0 |
|
[ZrL2X3]- 0 |
|
[ZrL3X3]- 0 |
|
[ZrL4X3]- 0 |
|
[ZrL5X3]- 0 |
|
[ZrL6X3]- 0 |
| X+2Z = 4 | |
[ZrX4]- 0 |
|
[ZrLX4]- 0 |
|
[ZrL2X4]- 0 |
|
[ZrL3X4]- 0 |
|
[ZrL4X4]- 0 |
|
[ZrL5X4]- 0 |
|
| X+2Z = 5 | [ZrX3Z]- 0 |
|
[ZrX5]- 11% |
|
[ZrLX5]- 50% |
|
[ZrL2X5]- 11% |
|
[ZrL3X5]- 6% |
|
[ZrL4X5]- 11% |
|
[ZrL5X5]- 6% |
| X+2Z = 6 | |
[ZrX4Z]- 0 |
|
[ZrX6]- 0 |
|
[ZrLX6]- 0 |
|
[ZrL2X6]- 0 |
|
[ZrL3X6]- 0 |
|
[ZrL4X6]- 0 |
|
| X+2Z = 7 | [ZrX3Z2]- 0 |
|
[ZrX5Z]- 0 |
|
[ZrX7]- 0 |
|
[ZrLX7]- 0 |
|
[ZrL2X7]- 0 |
|
[ZrL3X7]- 0 |
|
[ZrL4X7]- 0 |
| X+2Z = 8 | |
[ZrX4Z2]- 0 |
|
[ZrX6Z]- 0 |
|
[ZrX8]- 0 |
|
[ZrLX8]- 0 |
|
[ZrL2X8]- 0 |
|
[ZrL3X8]- 0 |
|
| X+2Z = 9 | [ZrX3Z3]- 0 |
|
[ZrX5Z2]- 0 |
|
[ZrX7Z]- 0 |
|
[ZrX9]- 0 |
|
[ZrLX9]- 0 |
|
[ZrL2X9]- 0 |
|
[ZrL3X9]- 0 |
| X+2Z = 10 | |
[ZrX4Z3]- 0 |
|
[ZrX6Z2]- 0 |
|
[ZrX8Z]- 0 |
|
[ZrX10]- 0 |
|
[ZrLX10]- 0 |
|
[ZrL2X10]- 0 |
|
| X+2Z = 11 | [ZrX3Z4]- 0 |
|
[ZrX5Z3]- 0 |
|
[ZrX7Z2]- 0 |
|
[ZrX9Z]- 0 |
|
[ZrX11]- 0 |
|
[ZrLX11]- 0 |
|
[ZrL2X11]- 0 |
| X+2Z = 12 | |
[ZrX4Z4]- 0 |
|
[ZrX6Z3]- 0 |
|
[ZrX8Z2]- 0 |
|
[ZrX10Z]- 0 |
|
[ZrX12]- 0 |
|
[ZrLX12]- 0 |
|
MLXZq± grid for zirconium (Zr) for Q = 0: [ZrXxLlZz]
The number of compounds found is 345.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [ZrL2] 0 |
|
[ZrL3] 0 |
|
[ZrL4] 0 |
|
[ZrL5] 0 |
|
[ZrL6] 0.3% |
|
[ZrL7] 0.3% |
|
[ZrL8] 0 |
| X+2Z = 1 | |
[ZrL2X] 0 |
|
[ZrL3X] 0 |
|
[ZrL4X] 0 |
|
[ZrL5X] 0 |
|
[ZrL6X] 0 |
|
[ZrL7X] 0 |
|
| X+2Z = 2 | [ZrLX2] 0 |
|
[ZrL2X2] 0 |
|
[ZrL3X2] 0 |
|
[ZrL4X2] 1% |
|
[ZrL5X2] 2% |
|
[ZrL6X2] 6% |
|
[ZrL7X2] 0 |
| X+2Z = 3 | |
[ZrLX3] 0 |
|
[ZrL2X3] 0.3% |
|
[ZrL3X3] 1% |
|
[ZrL4X3] 2% |
|
[ZrL5X3] 4% |
|
[ZrL6X3] 0 |
|
| X+2Z = 4 | [ZrX4] 2% |
|
[ZrLX4] 0.3% |
|
[ZrL2X4] 12% |
|
[ZrL3X4] 12% |
|
[ZrL4X4] 41% |
|
[ZrL5X4] 16% |
|
[ZrL6X4] 0 |
| X+2Z = 5 | |
[ZrX5] 0 |
|
[ZrLX5] 0 |
|
[ZrL2X5] 0 |
|
[ZrL3X5] 0 |
|
[ZrL4X5] 0 |
|
[ZrL5X5] 0 |
|
| X+2Z = 6 | [ZrX4Z] 0 |
|
[ZrX6] 0 |
|
[ZrLX6] 0 |
|
[ZrL2X6] 0 |
|
[ZrL3X6] 0 |
|
[ZrL4X6] 0 |
|
[ZrL5X6] 0 |
| X+2Z = 7 | |
[ZrX5Z] 0 |
|
[ZrX7] 0 |
|
[ZrLX7] 0 |
|
[ZrL2X7] 0 |
|
[ZrL3X7] 0 |
|
[ZrL4X7] 0 |
|
| X+2Z = 8 | [ZrX4Z2] 0 |
|
[ZrX6Z] 0 |
|
[ZrX8] 0 |
|
[ZrLX8] 0 |
|
[ZrL2X8] 0 |
|
[ZrL3X8] 0 |
|
[ZrL4X8] 0 |
| X+2Z = 9 | |
[ZrX5Z2] 0 |
|
[ZrX7Z] 0 |
|
[ZrX9] 0 |
|
[ZrLX9] 0 |
|
[ZrL2X9] 0 |
|
[ZrL3X9] 0 |
|
| X+2Z = 10 | [ZrX4Z3] 0 |
|
[ZrX6Z2] 0 |
|
[ZrX8Z] 0 |
|
[ZrX10] 0 |
|
[ZrLX10] 0 |
|
[ZrL2X10] 0 |
|
[ZrL3X10] 0 |
| X+2Z = 11 | |
[ZrX5Z3] 0 |
|
[ZrX7Z2] 0 |
|
[ZrX9Z] 0 |
|
[ZrX11] 0 |
|
[ZrLX11] 0 |
|
[ZrL2X11] 0 |
|
| X+2Z = 12 | [ZrX4Z4] 0 |
|
[ZrX6Z3] 0 |
|
[ZrX8Z2] 0 |
|
[ZrX10Z] 0 |
|
[ZrX12] 0 |
|
[ZrLX12] 0 |
|
[ZrL2X12] 0 |
MLXZq± grid for zirconium (Zr) for Q = 1: [ZrXxLlZz]+
The number of compounds found is 29.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[ZrL3]+ 0 |
|
[ZrL4]+ 0 |
|
[ZrL5]+ 0 |
|
[ZrL6]+ 0 |
|
[ZrL7]+ 0 |
|
[ZrL8]+ 0 |
|
| X+2Z = 1 | [ZrL2X]+ 0 |
|
[ZrL3X]+ 0 |
|
[ZrL4X]+ 0 |
|
[ZrL5X]+ 0 |
|
[ZrL6X]+ 0 |
|
[ZrL7X]+ 0 |
|
[ZrL8X]+ 0 |
| X+2Z = 2 | |
[ZrL2X2]+ 0 |
|
[ZrL3X2]+ 0 |
|
[ZrL4X2]+ 0 |
|
[ZrL5X2]+ 0 |
|
[ZrL6X2]+ 0 |
|
[ZrL7X2]+ 0 |
|
| X+2Z = 3 | [ZrLX3]+ 0 |
|
[ZrL2X3]+ 0 |
|
[ZrL3X3]+ 7% |
|
[ZrL4X3]+ 14% |
|
[ZrL5X3]+ 52% |
|
[ZrL6X3]+ 28% |
|
[ZrL7X3]+ 0 |
| X+2Z = 4 | |
[ZrLX4]+ 0 |
|
[ZrL2X4]+ 0 |
|
[ZrL3X4]+ 0 |
|
[ZrL4X4]+ 0 |
|
[ZrL5X4]+ 0 |
|
[ZrL6X4]+ 0 |
|
| X+2Z = 5 | [ZrX5]+ 0 |
|
[ZrLX5]+ 0 |
|
[ZrL2X5]+ 0 |
|
[ZrL3X5]+ 0 |
|
[ZrL4X5]+ 0 |
|
[ZrL5X5]+ 0 |
|
[ZrL6X5]+ 0 |
| X+2Z = 6 | |
[ZrX6]+ 0 |
|
[ZrLX6]+ 0 |
|
[ZrL2X6]+ 0 |
|
[ZrL3X6]+ 0 |
|
[ZrL4X6]+ 0 |
|
[ZrL5X6]+ 0 |
|
| X+2Z = 7 | [ZrX5Z]+ 0 |
|
[ZrX7]+ 0 |
|
[ZrLX7]+ 0 |
|
[ZrL2X7]+ 0 |
|
[ZrL3X7]+ 0 |
|
[ZrL4X7]+ 0 |
|
[ZrL5X7]+ 0 |
| X+2Z = 8 | |
[ZrX6Z]+ 0 |
|
[ZrX8]+ 0 |
|
[ZrLX8]+ 0 |
|
[ZrL2X8]+ 0 |
|
[ZrL3X8]+ 0 |
|
[ZrL4X8]+ 0 |
|
| X+2Z = 9 | [ZrX5Z2]+ 0 |
|
[ZrX7Z]+ 0 |
|
[ZrX9]+ 0 |
|
[ZrLX9]+ 0 |
|
[ZrL2X9]+ 0 |
|
[ZrL3X9]+ 0 |
|
[ZrL4X9]+ 0 |
| X+2Z = 10 | |
[ZrX6Z2]+ 0 |
|
[ZrX8Z]+ 0 |
|
[ZrX10]+ 0 |
|
[ZrLX10]+ 0 |
|
[ZrL2X10]+ 0 |
|
[ZrL3X10]+ 0 |
|
| X+2Z = 11 | [ZrX5Z3]+ 0 |
|
[ZrX7Z2]+ 0 |
|
[ZrX9Z]+ 0 |
|
[ZrX11]+ 0 |
|
[ZrLX11]+ 0 |
|
[ZrL2X11]+ 0 |
|
[ZrL3X11]+ 0 |
| X+2Z = 12 | |
[ZrX6Z3]+ 0 |
|
[ZrX8Z2]+ 0 |
|
[ZrX10Z]+ 0 |
|
[ZrX12]+ 0 |
|
[ZrLX12]+ 0 |
|
[ZrL2X12]+ 0 |
|
MLXZq± grid for zirconium (Zr) for Q = 2: [ZrXxLlZz]2+
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [ZrL3]2+ 0 |
|
[ZrL4]2+ 0 |
|
[ZrL5]2+ 0 |
|
[ZrL6]2+ 0 |
|
[ZrL7]2+ 0 |
|
[ZrL8]2+ 0 |
|
[ZrL9]2+ 0 |
| X+2Z = 1 | |
[ZrL3X]2+ 0 |
|
[ZrL4X]2+ 0 |
|
[ZrL5X]2+ 0 |
|
[ZrL6X]2+ 0 |
|
[ZrL7X]2+ 0 |
|
[ZrL8X]2+ 0 |
|
| X+2Z = 2 | [ZrL2X2]2+ 0 |
|
[ZrL3X2]2+ 0 |
|
[ZrL4X2]2+ 0 |
|
[ZrL5X2]2+ 0 |
|
[ZrL6X2]2+ 0 |
|
[ZrL7X2]2+ 100% |
|
[ZrL8X2]2+ 0 |
| X+2Z = 3 | |
[ZrL2X3]2+ 0 |
|
[ZrL3X3]2+ 0 |
|
[ZrL4X3]2+ 0 |
|
[ZrL5X3]2+ 0 |
|
[ZrL6X3]2+ 0 |
|
[ZrL7X3]2+ 0 |
|
| X+2Z = 4 | [ZrLX4]2+ 0 |
|
[ZrL2X4]2+ 0 |
|
[ZrL3X4]2+ 0 |
|
[ZrL4X4]2+ 0 |
|
[ZrL5X4]2+ 0 |
|
[ZrL6X4]2+ 0 |
|
[ZrL7X4]2+ 0 |
| X+2Z = 5 | |
[ZrLX5]2+ 0 |
|
[ZrL2X5]2+ 0 |
|
[ZrL3X5]2+ 0 |
|
[ZrL4X5]2+ 0 |
|
[ZrL5X5]2+ 0 |
|
[ZrL6X5]2+ 0 |
|
| X+2Z = 6 | [ZrX6]2+ 0 |
|
[ZrLX6]2+ 0 |
|
[ZrL2X6]2+ 0 |
|
[ZrL3X6]2+ 0 |
|
[ZrL4X6]2+ 0 |
|
[ZrL5X6]2+ 0 |
|
[ZrL6X6]2+ 0 |
| X+2Z = 7 | |
[ZrX7]2+ 0 |
|
[ZrLX7]2+ 0 |
|
[ZrL2X7]2+ 0 |
|
[ZrL3X7]2+ 0 |
|
[ZrL4X7]2+ 0 |
|
[ZrL5X7]2+ 0 |
|
| X+2Z = 8 | [ZrX6Z]2+ 0 |
|
[ZrX8]2+ 0 |
|
[ZrLX8]2+ 0 |
|
[ZrL2X8]2+ 0 |
|
[ZrL3X8]2+ 0 |
|
[ZrL4X8]2+ 0 |
|
[ZrL5X8]2+ 0 |
| X+2Z = 9 | |
[ZrX7Z]2+ 0 |
|
[ZrX9]2+ 0 |
|
[ZrLX9]2+ 0 |
|
[ZrL2X9]2+ 0 |
|
[ZrL3X9]2+ 0 |
|
[ZrL4X9]2+ 0 |
|
| X+2Z = 10 | [ZrX6Z2]2+ 0 |
|
[ZrX8Z]2+ 0 |
|
[ZrX10]2+ 0 |
|
[ZrLX10]2+ 0 |
|
[ZrL2X10]2+ 0 |
|
[ZrL3X10]2+ 0 |
|
[ZrL4X10]2+ 0 |
| X+2Z = 11 | |
[ZrX7Z2]2+ 0 |
|
[ZrX9Z]2+ 0 |
|
[ZrX11]2+ 0 |
|
[ZrLX11]2+ 0 |
|
[ZrL2X11]2+ 0 |
|
[ZrL3X11]2+ 0 |
|
| X+2Z = 12 | [ZrX6Z3]2+ 0 |
|
[ZrX8Z2]2+ 0 |
|
[ZrX10Z]2+ 0 |
|
[ZrX12]2+ 0 |
|
[ZrLX12]2+ 0 |
|
[ZrL2X12]2+ 0 |
|
[ZrL3X12]2+ 0 |
MLXZq± grid for zirconium (Zr) for Q = 3: [ZrXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for zirconium (Zr) for Q = 4: [ZrXxLlZz]4+
The number of compounds found is 3.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [ZrL4]4+ 0 |
|
[ZrL5]4+ 0 |
|
[ZrL6]4+ 33% |
|
[ZrL7]4+ 0 |
|
[ZrL8]4+ 67% |
|
[ZrL9]4+ 0 |
|
[ZrL10]4+ 0 |
| X+2Z = 1 | |
[ZrL4X]4+ 0 |
|
[ZrL5X]4+ 0 |
|
[ZrL6X]4+ 0 |
|
[ZrL7X]4+ 0 |
|
[ZrL8X]4+ 0 |
|
[ZrL9X]4+ 0 |
|
| X+2Z = 2 | [ZrL3X2]4+ 0 |
|
[ZrL4X2]4+ 0 |
|
[ZrL5X2]4+ 0 |
|
[ZrL6X2]4+ 0 |
|
[ZrL7X2]4+ 0 |
|
[ZrL8X2]4+ 0 |
|
[ZrL9X2]4+ 0 |
| X+2Z = 3 | |
[ZrL3X3]4+ 0 |
|
[ZrL4X3]4+ 0 |
|
[ZrL5X3]4+ 0 |
|
[ZrL6X3]4+ 0 |
|
[ZrL7X3]4+ 0 |
|
[ZrL8X3]4+ 0 |
|
| X+2Z = 4 | [ZrL2X4]4+ 0 |
|
[ZrL3X4]4+ 0 |
|
[ZrL4X4]4+ 0 |
|
[ZrL5X4]4+ 0 |
|
[ZrL6X4]4+ 0 |
|
[ZrL7X4]4+ 0 |
|
[ZrL8X4]4+ 0 |
| X+2Z = 5 | |
[ZrL2X5]4+ 0 |
|
[ZrL3X5]4+ 0 |
|
[ZrL4X5]4+ 0 |
|
[ZrL5X5]4+ 0 |
|
[ZrL6X5]4+ 0 |
|
[ZrL7X5]4+ 0 |
|
| X+2Z = 6 | [ZrLX6]4+ 0 |
|
[ZrL2X6]4+ 0 |
|
[ZrL3X6]4+ 0 |
|
[ZrL4X6]4+ 0 |
|
[ZrL5X6]4+ 0 |
|
[ZrL6X6]4+ 0 |
|
[ZrL7X6]4+ 0 |
| X+2Z = 7 | |
[ZrLX7]4+ 0 |
|
[ZrL2X7]4+ 0 |
|
[ZrL3X7]4+ 0 |
|
[ZrL4X7]4+ 0 |
|
[ZrL5X7]4+ 0 |
|
[ZrL6X7]4+ 0 |
|
| X+2Z = 8 | [ZrX8]4+ 0 |
|
[ZrLX8]4+ 0 |
|
[ZrL2X8]4+ 0 |
|
[ZrL3X8]4+ 0 |
|
[ZrL4X8]4+ 0 |
|
[ZrL5X8]4+ 0 |
|
[ZrL6X8]4+ 0 |
| X+2Z = 9 | |
[ZrX9]4+ 0 |
|
[ZrLX9]4+ 0 |
|
[ZrL2X9]4+ 0 |
|
[ZrL3X9]4+ 0 |
|
[ZrL4X9]4+ 0 |
|
[ZrL5X9]4+ 0 |
|
| X+2Z = 10 | [ZrX8Z]4+ 0 |
|
[ZrX10]4+ 0 |
|
[ZrLX10]4+ 0 |
|
[ZrL2X10]4+ 0 |
|
[ZrL3X10]4+ 0 |
|
[ZrL4X10]4+ 0 |
|
[ZrL5X10]4+ 0 |
| X+2Z = 11 | |
[ZrX9Z]4+ 0 |
|
[ZrX11]4+ 0 |
|
[ZrLX11]4+ 0 |
|
[ZrL2X11]4+ 0 |
|
[ZrL3X11]4+ 0 |
|
[ZrL4X11]4+ 0 |
|
| X+2Z = 12 | [ZrX8Z2]4+ 0 |
|
[ZrX10Z]4+ 0 |
|
[ZrX12]4+ 0 |
|
[ZrLX12]4+ 0 |
|
[ZrL2X12]4+ 0 |
|
[ZrL3X12]4+ 0 |
|
[ZrL4X12]4+ 0 |
MLXZq± grid for niobium (Nb) for Q = -6: [NbXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for niobium (Nb) for Q = -5: [NbXxLlZz]5-
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of niobium with that [MLXZ]q± classification.
| EN➝ | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[Nb]5- 0 |
|
[NbL]5- 0 |
|
[NbL2]5- 0 |
|
[NbL3]5- 0 |
|
[NbL4]5- 0 |
| X+2Z = 1 | [NbZ]5- 0 |
|
[NbX]5- 0 |
|
[NbLX]5- 0 |
|
[NbL2X]5- 0 |
|
[NbL3X]5- 0 |
|
| X+2Z = 2 | |
[NbZ]5- 0 |
|
[NbX2]5- 0 |
|
[NbLX2]5- 0 |
|
[NbL2X2]5- 0 |
|
[NbL3X2]5- 0 |
| X+2Z = 3 | [NbZ2]5- 0 |
|
[NbXZ]5- 0 |
|
[NbX3]5- 0 |
|
[NbLX3]5- 0 |
|
[NbL2X3]5- 0 |
|
| X+2Z = 4 | |
[NbZ2]5- 0 |
|
[NbX2Z]5- 0 |
|
[NbX4]5- 0 |
|
[NbLX4]5- 0 |
|
[NbL2X4]5- 0 |
| X+2Z = 5 | [NbZ3]5- 0 |
|
[NbXZ2]5- 0 |
|
[NbX3Z]5- 0 |
|
[NbX5]5- 0 |
|
[NbLX5]5- 0 |
|
| X+2Z = 6 | |
[NbZ3]5- 0 |
|
[NbX2Z2]5- 0 |
|
[NbX4Z]5- 0 |
|
[NbX6]5- 0 |
|
[NbLX6]5- 0 |
| X+2Z = 7 | [NbZ4]5- 0 |
|
[NbXZ3]5- 0 |
|
[NbX3Z2]5- 0 |
|
[NbX5Z]5- 0 |
|
[NbX7]5- 0 |
|
| X+2Z = 8 | |
[NbZ4]5- 0 |
|
[NbX2Z3]5- 0 |
|
[NbX4Z2]5- 0 |
|
[NbX6Z]5- 0 |
|
[NbX8]5- 100% |
| X+2Z = 9 | [NbZ5]5- 0 |
|
[NbXZ4]5- 0 |
|
[NbX3Z3]5- 0 |
|
[NbX5Z2]5- 0 |
|
[NbX7Z]5- 0 |
|
| X+2Z = 10 | |
[NbZ5]5- 0 |
|
[NbX2Z4]5- 0 |
|
[NbX4Z3]5- 0 |
|
[NbX6Z2]5- 0 |
|
[NbX8Z]5- 0 |
| X+2Z = 11 | [NbZ6]5- 0 |
|
[NbXZ5]5- 0 |
|
[NbX3Z4]5- 0 |
|
[NbX5Z3]5- 0 |
|
[NbX7Z2]5- 0 |
|
| X+2Z = 12 | |
[NbZ6]5- 0 |
|
[NbX2Z5]5- 0 |
|
[NbX4Z4]5- 0 |
|
[NbX6Z3]5- 0 |
|
[NbX8Z2]5- 0 |
MLXZq± grid for niobium (Nb) for Q = -4: [NbXxLlZz]4-
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of niobium with that [MLXZ]q± classification.
| EN➝ | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Nb]4- 0 |
|
[NbL]4- 0 |
|
[NbL2]4- 0 |
|
[NbL3]4- 0 |
|
[NbL4]4- 0 |
|
| X+2Z = 1 | |
[NbX]4- 0 |
|
[NbLX]4- 0 |
|
[NbL2X]4- 0 |
|
[NbL3X]4- 0 |
|
[NbL4X]4- 0 |
| X+2Z = 2 | [NbZ]4- 0 |
|
[NbX2]4- 0 |
|
[NbLX2]4- 0 |
|
[NbL2X2]4- 0 |
|
[NbL3X2]4- 0 |
|
| X+2Z = 3 | |
[NbXZ]4- 0 |
|
[NbX3]4- 0 |
|
[NbLX3]4- 0 |
|
[NbL2X3]4- 0 |
|
[NbL3X3]4- 0 |
| X+2Z = 4 | [NbZ2]4- 0 |
|
[NbX2Z]4- 0 |
|
[NbX4]4- 0 |
|
[NbLX4]4- 0 |
|
[NbL2X4]4- 0 |
|
| X+2Z = 5 | |
[NbXZ2]4- 0 |
|
[NbX3Z]4- 0 |
|
[NbX5]4- 0 |
|
[NbLX5]4- 0 |
|
[NbL2X5]4- 0 |
| X+2Z = 6 | [NbZ3]4- 0 |
|
[NbX2Z2]4- 0 |
|
[NbX4Z]4- 0 |
|
[NbX6]4- 0 |
|
[NbLX6]4- 0 |
|
| X+2Z = 7 | |
[NbXZ3]4- 0 |
|
[NbX3Z2]4- 0 |
|
[NbX5Z]4- 0 |
|
[NbX7]4- 0 |
|
[NbLX7]4- 0 |
| X+2Z = 8 | [NbZ4]4- 0 |
|
[NbX2Z3]4- 0 |
|
[NbX4Z2]4- 0 |
|
[NbX6Z]4- 0 |
|
[NbX8]4- 100% |
|
| X+2Z = 9 | |
[NbXZ4]4- 0 |
|
[NbX3Z3]4- 0 |
|
[NbX5Z2]4- 0 |
|
[NbX7Z]4- 0 |
|
[NbX9]4- 0 |
| X+2Z = 10 | [NbZ5]4- 0 |
|
[NbX2Z4]4- 0 |
|
[NbX4Z3]4- 0 |
|
[NbX6Z2]4- 0 |
|
[NbX8Z]4- 0 |
|
| X+2Z = 11 | |
[NbXZ5]4- 0 |
|
[NbX3Z4]4- 0 |
|
[NbX5Z3]4- 0 |
|
[NbX7Z2]4- 0 |
|
[NbX9Z]4- 0 |
| X+2Z = 12 | [NbZ6]4- 0 |
|
[NbX2Z5]4- 0 |
|
[NbX4Z4]4- 0 |
|
[NbX6Z3]4- 0 |
|
[NbX8Z2]4- 0 |
|
MLXZq± grid for niobium (Nb) for Q = -3: [NbXxLlZz]3-
The number of compounds found is 5.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of niobium with that [MLXZ]q± classification.
| EN➝ | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[NbL]3- 0 |
|
[NbL2]3- 0 |
|
[NbL3]3- 0 |
|
[NbL4]3- 0 |
|
[NbL5]3- 0 |
| X+2Z = 1 | [NbX]3- 0 |
|
[NbLX]3- 0 |
|
[NbL2X]3- 0 |
|
[NbL3X]3- 0 |
|
[NbL4X]3- 0 |
|
| X+2Z = 2 | |
[NbX2]3- 0 |
|
[NbLX2]3- 0 |
|
[NbL2X2]3- 0 |
|
[NbL3X2]3- 0 |
|
[NbL4X2]3- 0 |
| X+2Z = 3 | [NbXZ]3- 0 |
|
[NbX3]3- 0 |
|
[NbLX3]3- 0 |
|
[NbL2X3]3- 0 |
|
[NbL3X3]3- 0 |
|
| X+2Z = 4 | |
[NbX2Z]3- 0 |
|
[NbX4]3- 0 |
|
[NbLX4]3- 0 |
|
[NbL2X4]3- 0 |
|
[NbL3X4]3- 0 |
| X+2Z = 5 | [NbXZ2]3- 0 |
|
[NbX3Z]3- 0 |
|
[NbX5]3- 0 |
|
[NbLX5]3- 0 |
|
[NbL2X5]3- 0 |
|
| X+2Z = 6 | |
[NbX2Z2]3- 0 |
|
[NbX4Z]3- 0 |
|
[NbX6]3- 0 |
|
[NbLX6]3- 0 |
|
[NbL2X6]3- 0 |
| X+2Z = 7 | [NbXZ3]3- 0 |
|
[NbX3Z2]3- 0 |
|
[NbX5Z]3- 0 |
|
[NbX7]3- 0 |
|
[NbLX7]3- 0 |
|
| X+2Z = 8 | |
[NbX2Z3]3- 0 |
|
[NbX4Z2]3- 0 |
|
[NbX6Z]3- 0 |
|
[NbX8]3- 40% |
|
[NbLX8]3- 60% |
| X+2Z = 9 | [NbXZ4]3- 0 |
|
[NbX3Z3]3- 0 |
|
[NbX5Z2]3- 0 |
|
[NbX7Z]3- 0 |
|
[NbX9]3- 0 |
|
| X+2Z = 10 | |
[NbX2Z4]3- 0 |
|
[NbX4Z3]3- 0 |
|
[NbX6Z2]3- 0 |
|
[NbX8Z]3- 0 |
|
[NbX10]3- 0 |
| X+2Z = 11 | [NbXZ5]3- 0 |
|
[NbX3Z4]3- 0 |
|
[NbX5Z3]3- 0 |
|
[NbX7Z2]3- 0 |
|
[NbX9Z]3- 0 |
|
| X+2Z = 12 | |
[NbX2Z5]3- 0 |
|
[NbX4Z4]3- 0 |
|
[NbX6Z3]3- 0 |
|
[NbX8Z2]3- 0 |
|
[NbX10Z]3- 0 |
MLXZq± grid for niobium (Nb) for Q = -2: [NbXxLlZz]2-
The number of compounds found is 16.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of niobium with that [MLXZ]q± classification.
| EN➝ | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [NbL]2- 0 |
|
[NbL2]2- 0 |
|
[NbL3]2- 0 |
|
[NbL4]2- 0 |
|
[NbL5]2- 0 |
|
| X+2Z = 1 | |
[NbLX]2- 0 |
|
[NbL2X]2- 0 |
|
[NbL3X]2- 0 |
|
[NbL4X]2- 0 |
|
[NbL5X]2- 0 |
| X+2Z = 2 | [NbX2]2- 0 |
|
[NbLX2]2- 0 |
|
[NbL2X2]2- 0 |
|
[NbL3X2]2- 0 |
|
[NbL4X2]2- 0 |
|
| X+2Z = 3 | |
[NbX3]2- 0 |
|
[NbLX3]2- 0 |
|
[NbL2X3]2- 0 |
|
[NbL3X3]2- 0 |
|
[NbL4X3]2- 0 |
| X+2Z = 4 | [NbX2Z]2- 0 |
|
[NbX4]2- 0 |
|
[NbLX4]2- 0 |
|
[NbL2X4]2- 0 |
|
[NbL3X4]2- 0 |
|
| X+2Z = 5 | |
[NbX3Z]2- 0 |
|
[NbX5]2- 0 |
|
[NbLX5]2- 0 |
|
[NbL2X5]2- 0 |
|
[NbL3X5]2- 0 |
| X+2Z = 6 | [NbX2Z2]2- 0 |
|
[NbX4Z]2- 0 |
|
[NbX6]2- 6% |
|
[NbLX6]2- 0 |
|
[NbL2X6]2- 0 |
|
| X+2Z = 7 | |
[NbX3Z2]2- 0 |
|
[NbX5Z]2- 0 |
|
[NbX7]2- 38% |
|
[NbLX7]2- 56% |
|
[NbL2X7]2- 0 |
| X+2Z = 8 | [NbX2Z3]2- 0 |
|
[NbX4Z2]2- 0 |
|
[NbX6Z]2- 0 |
|
[NbX8]2- 0 |
|
[NbLX8]2- 0 |
|
| X+2Z = 9 | |
[NbX3Z3]2- 0 |
|
[NbX5Z2]2- 0 |
|
[NbX7Z]2- 0 |
|
[NbX9]2- 0 |
|
[NbLX9]2- 0 |
| X+2Z = 10 | [NbX2Z4]2- 0 |
|
[NbX4Z3]2- 0 |
|
[NbX6Z2]2- 0 |
|
[NbX8Z]2- 0 |
|
[NbX10]2- 0 |
|
| X+2Z = 11 | |
[NbX3Z4]2- 0 |
|
[NbX5Z3]2- 0 |
|
[NbX7Z2]2- 0 |
|
[NbX9Z]2- 0 |
|
[NbX11]2- 0 |
| X+2Z = 12 | [NbX2Z5]2- 0 |
|
[NbX4Z4]2- 0 |
|
[NbX6Z3]2- 0 |
|
[NbX8Z2]2- 0 |
|
[NbX10Z]2- 0 |
|
MLXZq± grid for niobium (Nb) for Q = -1: [NbXxLlZz]-
The number of compounds found is 39.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of niobium with that [MLXZ]q± classification.
| EN➝ | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[NbL2]- 0 |
|
[NbL3]- 0 |
|
[NbL4]- 0 |
|
[NbL5]- 0 |
|
[NbL6]- 5% |
| X+2Z = 1 | [NbLX]- 0 |
|
[NbL2X]- 0 |
|
[NbL3X]- 0 |
|
[NbL4X]- 0 |
|
[NbL5X]- 0 |
|
| X+2Z = 2 | |
[NbLX2]- 0 |
|
[NbL2X2]- 0 |
|
[NbL3X2]- 0 |
|
[NbL4X2]- 0 |
|
[NbL5X2]- 3% |
| X+2Z = 3 | [NbX3]- 0 |
|
[NbLX3]- 0 |
|
[NbL2X3]- 0 |
|
[NbL3X3]- 0 |
|
[NbL4X3]- 0 |
|
| X+2Z = 4 | |
[NbX4]- 3% |
|
[NbLX4]- 0 |
|
[NbL2X4]- 5% |
|
[NbL3X4]- 0 |
|
[NbL4X4]- 8% |
| X+2Z = 5 | [NbX3Z]- 0 |
|
[NbX5]- 0 |
|
[NbLX5]- 3% |
|
[NbL2X5]- 0 |
|
[NbL3X5]- 0 |
|
| X+2Z = 6 | |
[NbX4Z]- 0 |
|
[NbX6]- 33% |
|
[NbLX6]- 8% |
|
[NbL2X6]- 18% |
|
[NbL3X6]- 15% |
| X+2Z = 7 | [NbX3Z2]- 0 |
|
[NbX5Z]- 0 |
|
[NbX7]- 0 |
|
[NbLX7]- 0 |
|
[NbL2X7]- 0 |
|
| X+2Z = 8 | |
[NbX4Z2]- 0 |
|
[NbX6Z]- 0 |
|
[NbX8]- 0 |
|
[NbLX8]- 0 |
|
[NbL2X8]- 0 |
| X+2Z = 9 | [NbX3Z3]- 0 |
|
[NbX5Z2]- 0 |
|
[NbX7Z]- 0 |
|
[NbX9]- 0 |
|
[NbLX9]- 0 |
|
| X+2Z = 10 | |
[NbX4Z3]- 0 |
|
[NbX6Z2]- 0 |
|
[NbX8Z]- 0 |
|
[NbX10]- 0 |
|
[NbLX10]- 0 |
| X+2Z = 11 | [NbX3Z4]- 0 |
|
[NbX5Z3]- 0 |
|
[NbX7Z2]- 0 |
|
[NbX9Z]- 0 |
|
[NbX11]- 0 |
|
| X+2Z = 12 | |
[NbX4Z4]- 0 |
|
[NbX6Z3]- 0 |
|
[NbX8Z2]- 0 |
|
[NbX10Z]- 0 |
|
[NbX12]- 0 |
MLXZq± grid for niobium (Nb) for Q = 0: [NbXxLlZz]
The number of compounds found is 250.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of niobium with that [MLXZ]q± classification.
| EN➝ | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [NbL2] 0 |
|
[NbL3] 0 |
|
[NbL4] 0 |
|
[NbL5] 0 |
|
[NbL6] 1% |
|
| X+2Z = 1 | |
[NbL2X] 0 |
|
[NbL3X] 0 |
|
[NbL4X] 0 |
|
[NbL5X] 1% |
|
[NbL6X] 6% |
| X+2Z = 2 | [NbLX2] 0 |
|
[NbL2X2] 0 |
|
[NbL3X2] 0 |
|
[NbL4X2] 1% |
|
[NbL5X2] 1% |
|
| X+2Z = 3 | |
[NbLX3] 0.4% |
|
[NbL2X3] 0.4% |
|
[NbL3X3] 4% |
|
[NbL4X3] 1% |
|
[NbL5X3] 12% |
| X+2Z = 4 | [NbX4] 0.4% |
|
[NbLX4] 0 |
|
[NbL2X4] 7% |
|
[NbL3X4] 2% |
|
[NbL4X4] 7% |
|
| X+2Z = 5 | |
[NbX5] 2% |
|
[NbLX5] 12% |
|
[NbL2X5] 8% |
|
[NbL3X5] 16% |
|
[NbL4X5] 19% |
| X+2Z = 6 | [NbX4Z] 0 |
|
[NbX6] 0 |
|
[NbLX6] 0 |
|
[NbL2X6] 0 |
|
[NbL3X6] 0 |
|
| X+2Z = 7 | |
[NbX5Z] 0 |
|
[NbX7] 0 |
|
[NbLX7] 0 |
|
[NbL2X7] 0 |
|
[NbL3X7] 0 |
| X+2Z = 8 | [NbX4Z2] 0 |
|
[NbX6Z] 0 |
|
[NbX8] 0 |
|
[NbLX8] 0 |
|
[NbL2X8] 0 |
|
| X+2Z = 9 | |
[NbX5Z2] 0 |
|
[NbX7Z] 0 |
|
[NbX9] 0 |
|
[NbLX9] 0 |
|
[NbL2X9] 0 |
| X+2Z = 10 | [NbX4Z3] 0 |
|
[NbX6Z2] 0 |
|
[NbX8Z] 0 |
|
[NbX10] 0 |
|
[NbLX10] 0 |
|
| X+2Z = 11 | |
[NbX5Z3] 0 |
|
[NbX7Z2] 0 |
|
[NbX9Z] 0 |
|
[NbX11] 0 |
|
[NbLX11] 0 |
| X+2Z = 12 | [NbX4Z4] 0 |
|
[NbX6Z3] 0 |
|
[NbX8Z2] 0 |
|
[NbX10Z] 0 |
|
[NbX12] 0 |
|
MLXZq± grid for niobium (Nb) for Q = 1: [NbXxLlZz]+
The number of compounds found is 35.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of niobium with that [MLXZ]q± classification.
| EN➝ | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[NbL3]+ 0 |
|
[NbL4]+ 0 |
|
[NbL5]+ 0 |
|
[NbL6]+ 0 |
|
[NbL7]+ 14% |
| X+2Z = 1 | [NbL2X]+ 0 |
|
[NbL3X]+ 0 |
|
[NbL4X]+ 0 |
|
[NbL5X]+ 0 |
|
[NbL6X]+ 3% |
|
| X+2Z = 2 | |
[NbL2X2]+ 0 |
|
[NbL3X2]+ 0 |
|
[NbL4X2]+ 3% |
|
[NbL5X2]+ 0 |
|
[NbL6X2]+ 14% |
| X+2Z = 3 | [NbLX3]+ 0 |
|
[NbL2X3]+ 0 |
|
[NbL3X3]+ 0 |
|
[NbL4X3]+ 0 |
|
[NbL5X3]+ 0 |
|
| X+2Z = 4 | |
[NbLX4]+ 0 |
|
[NbL2X4]+ 6% |
|
[NbL3X4]+ 0 |
|
[NbL4X4]+ 54% |
|
[NbL5X4]+ 6% |
| X+2Z = 5 | [NbX5]+ 0 |
|
[NbLX5]+ 0 |
|
[NbL2X5]+ 0 |
|
[NbL3X5]+ 0 |
|
[NbL4X5]+ 0 |
|
| X+2Z = 6 | |
[NbX6]+ 0 |
|
[NbLX6]+ 0 |
|
[NbL2X6]+ 0 |
|
[NbL3X6]+ 0 |
|
[NbL4X6]+ 0 |
| X+2Z = 7 | [NbX5Z]+ 0 |
|
[NbX7]+ 0 |
|
[NbLX7]+ 0 |
|
[NbL2X7]+ 0 |
|
[NbL3X7]+ 0 |
|
| X+2Z = 8 | |
[NbX6Z]+ 0 |
|
[NbX8]+ 0 |
|
[NbLX8]+ 0 |
|
[NbL2X8]+ 0 |
|
[NbL3X8]+ 0 |
| X+2Z = 9 | [NbX5Z2]+ 0 |
|
[NbX7Z]+ 0 |
|
[NbX9]+ 0 |
|
[NbLX9]+ 0 |
|
[NbL2X9]+ 0 |
|
| X+2Z = 10 | |
[NbX6Z2]+ 0 |
|
[NbX8Z]+ 0 |
|
[NbX10]+ 0 |
|
[NbLX10]+ 0 |
|
[NbL2X10]+ 0 |
| X+2Z = 11 | [NbX5Z3]+ 0 |
|
[NbX7Z2]+ 0 |
|
[NbX9Z]+ 0 |
|
[NbX11]+ 0 |
|
[NbLX11]+ 0 |
|
| X+2Z = 12 | |
[NbX6Z3]+ 0 |
|
[NbX8Z2]+ 0 |
|
[NbX10Z]+ 0 |
|
[NbX12]+ 0 |
|
[NbLX12]+ 0 |
MLXZq± grid for niobium (Nb) for Q = 2: [NbXxLlZz]2+
The number of compounds found is 4.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of niobium with that [MLXZ]q± classification.
| EN➝ | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [NbL3]2+ 0 |
|
[NbL4]2+ 0 |
|
[NbL5]2+ 0 |
|
[NbL6]2+ 0 |
|
[NbL7]2+ 0 |
|
| X+2Z = 1 | |
[NbL3X]2+ 0 |
|
[NbL4X]2+ 0 |
|
[NbL5X]2+ 0 |
|
[NbL6X]2+ 0 |
|
[NbL7X]2+ 0 |
| X+2Z = 2 | [NbL2X2]2+ 0 |
|
[NbL3X2]2+ 0 |
|
[NbL4X2]2+ 0 |
|
[NbL5X2]2+ 0 |
|
[NbL6X2]2+ 75% |
|
| X+2Z = 3 | |
[NbL2X3]2+ 0 |
|
[NbL3X3]2+ 0 |
|
[NbL4X3]2+ 25% |
|
[NbL5X3]2+ 0 |
|
[NbL6X3]2+ 0 |
| X+2Z = 4 | [NbLX4]2+ 0 |
|
[NbL2X4]2+ 0 |
|
[NbL3X4]2+ 0 |
|
[NbL4X4]2+ 0 |
|
[NbL5X4]2+ 0 |
|
| X+2Z = 5 | |
[NbLX5]2+ 0 |
|
[NbL2X5]2+ 0 |
|
[NbL3X5]2+ 0 |
|
[NbL4X5]2+ 0 |
|
[NbL5X5]2+ 0 |
| X+2Z = 6 | [NbX6]2+ 0 |
|
[NbLX6]2+ 0 |
|
[NbL2X6]2+ 0 |
|
[NbL3X6]2+ 0 |
|
[NbL4X6]2+ 0 |
|
| X+2Z = 7 | |
[NbX7]2+ 0 |
|
[NbLX7]2+ 0 |
|
[NbL2X7]2+ 0 |
|
[NbL3X7]2+ 0 |
|
[NbL4X7]2+ 0 |
| X+2Z = 8 | [NbX6Z]2+ 0 |
|
[NbX8]2+ 0 |
|
[NbLX8]2+ 0 |
|
[NbL2X8]2+ 0 |
|
[NbL3X8]2+ 0 |
|
| X+2Z = 9 | |
[NbX7Z]2+ 0 |
|
[NbX9]2+ 0 |
|
[NbLX9]2+ 0 |
|
[NbL2X9]2+ 0 |
|
[NbL3X9]2+ 0 |
| X+2Z = 10 | [NbX6Z2]2+ 0 |
|
[NbX8Z]2+ 0 |
|
[NbX10]2+ 0 |
|
[NbLX10]2+ 0 |
|
[NbL2X10]2+ 0 |
|
| X+2Z = 11 | |
[NbX7Z2]2+ 0 |
|
[NbX9Z]2+ 0 |
|
[NbX11]2+ 0 |
|
[NbLX11]2+ 0 |
|
[NbL2X11]2+ 0 |
| X+2Z = 12 | [NbX6Z3]2+ 0 |
|
[NbX8Z2]2+ 0 |
|
[NbX10Z]2+ 0 |
|
[NbX12]2+ 0 |
|
[NbLX12]2+ 0 |
|
MLXZq± grid for niobium (Nb) for Q = 3: [NbXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for niobium (Nb) for Q = 4: [NbXxLlZz]4+
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of niobium with that [MLXZ]q± classification.
| EN➝ | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [NbL4]4+ 0 |
|
[NbL5]4+ 0 |
|
[NbL6]4+ 0 |
|
[NbL7]4+ 0 |
|
[NbL8]4+ 0 |
|
| X+2Z = 1 | |
[NbL4X]4+ 0 |
|
[NbL5X]4+ 0 |
|
[NbL6X]4+ 0 |
|
[NbL7X]4+ 0 |
|
[NbL8X]4+ 100% |
| X+2Z = 2 | [NbL3X2]4+ 0 |
|
[NbL4X2]4+ 0 |
|
[NbL5X2]4+ 0 |
|
[NbL6X2]4+ 0 |
|
[NbL7X2]4+ 0 |
|
| X+2Z = 3 | |
[NbL3X3]4+ 0 |
|
[NbL4X3]4+ 0 |
|
[NbL5X3]4+ 0 |
|
[NbL6X3]4+ 0 |
|
[NbL7X3]4+ 0 |
| X+2Z = 4 | [NbL2X4]4+ 0 |
|
[NbL3X4]4+ 0 |
|
[NbL4X4]4+ 0 |
|
[NbL5X4]4+ 0 |
|
[NbL6X4]4+ 0 |
|
| X+2Z = 5 | |
[NbL2X5]4+ 0 |
|
[NbL3X5]4+ 0 |
|
[NbL4X5]4+ 0 |
|
[NbL5X5]4+ 0 |
|
[NbL6X5]4+ 0 |
| X+2Z = 6 | [NbLX6]4+ 0 |
|
[NbL2X6]4+ 0 |
|
[NbL3X6]4+ 0 |
|
[NbL4X6]4+ 0 |
|
[NbL5X6]4+ 0 |
|
| X+2Z = 7 | |
[NbLX7]4+ 0 |
|
[NbL2X7]4+ 0 |
|
[NbL3X7]4+ 0 |
|
[NbL4X7]4+ 0 |
|
[NbL5X7]4+ 0 |
| X+2Z = 8 | [NbX8]4+ 0 |
|
[NbLX8]4+ 0 |
|
[NbL2X8]4+ 0 |
|
[NbL3X8]4+ 0 |
|
[NbL4X8]4+ 0 |
|
| X+2Z = 9 | |
[NbX9]4+ 0 |
|
[NbLX9]4+ 0 |
|
[NbL2X9]4+ 0 |
|
[NbL3X9]4+ 0 |
|
[NbL4X9]4+ 0 |
| X+2Z = 10 | [NbX8Z]4+ 0 |
|
[NbX10]4+ 0 |
|
[NbLX10]4+ 0 |
|
[NbL2X10]4+ 0 |
|
[NbL3X10]4+ 0 |
|
| X+2Z = 11 | |
[NbX9Z]4+ 0 |
|
[NbX11]4+ 0 |
|
[NbLX11]4+ 0 |
|
[NbL2X11]4+ 0 |
|
[NbL3X11]4+ 0 |
| X+2Z = 12 | [NbX8Z2]4+ 0 |
|
[NbX10Z]4+ 0 |
|
[NbX12]4+ 0 |
|
[NbLX12]4+ 0 |
|
[NbL2X12]4+ 0 |
|
MLXZq± grid for molybdenum (Mo) for Q = -6: [MoXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for molybdenum (Mo) for Q = -5: [MoXxLlZz]5-
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of molybdenum with that [MLXZ]q± classification.
| EN➝ | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[Mo]5- 0 |
|
[MoL]5- 0 |
|
[MoL2]5- 0 |
|
[MoL3]5- 0 |
|
| X+2Z = 1 | [MoZ]5- 0 |
|
[MoX]5- 0 |
|
[MoLX]5- 0 |
|
[MoL2X]5- 0 |
|
[MoL3X]5- 0 |
| X+2Z = 2 | |
[MoZ]5- 0 |
|
[MoX2]5- 0 |
|
[MoLX2]5- 0 |
|
[MoL2X2]5- 0 |
|
| X+2Z = 3 | [MoZ2]5- 0 |
|
[MoXZ]5- 0 |
|
[MoX3]5- 0 |
|
[MoLX3]5- 0 |
|
[MoL2X3]5- 0 |
| X+2Z = 4 | |
[MoZ2]5- 0 |
|
[MoX2Z]5- 0 |
|
[MoX4]5- 0 |
|
[MoLX4]5- 0 |
|
| X+2Z = 5 | [MoZ3]5- 0 |
|
[MoXZ2]5- 0 |
|
[MoX3Z]5- 0 |
|
[MoX5]5- 0 |
|
[MoLX5]5- 0 |
| X+2Z = 6 | |
[MoZ3]5- 0 |
|
[MoX2Z2]5- 0 |
|
[MoX4Z]5- 0 |
|
[MoX6]5- 0 |
|
| X+2Z = 7 | [MoZ4]5- 0 |
|
[MoXZ3]5- 0 |
|
[MoX3Z2]5- 0 |
|
[MoX5Z]5- 0 |
|
[MoX7]5- 100% |
| X+2Z = 8 | |
[MoZ4]5- 0 |
|
[MoX2Z3]5- 0 |
|
[MoX4Z2]5- 0 |
|
[MoX6Z]5- 0 |
|
| X+2Z = 9 | [MoZ5]5- 0 |
|
[MoXZ4]5- 0 |
|
[MoX3Z3]5- 0 |
|
[MoX5Z2]5- 0 |
|
[MoX7Z]5- 0 |
| X+2Z = 10 | |
[MoZ5]5- 0 |
|
[MoX2Z4]5- 0 |
|
[MoX4Z3]5- 0 |
|
[MoX6Z2]5- 0 |
|
| X+2Z = 11 | [MoZ6]5- 0 |
|
[MoXZ5]5- 0 |
|
[MoX3Z4]5- 0 |
|
[MoX5Z3]5- 0 |
|
[MoX7Z2]5- 0 |
| X+2Z = 12 | |
[MoZ6]5- 0 |
|
[MoX2Z5]5- 0 |
|
[MoX4Z4]5- 0 |
|
[MoX6Z3]5- 0 |
|
MLXZq± grid for molybdenum (Mo) for Q = -4: [MoXxLlZz]4-
The number of compounds found is 4.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of molybdenum with that [MLXZ]q± classification.
| EN➝ | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Mo]4- 0 |
|
[MoL]4- 0 |
|
[MoL2]4- 0 |
|
[MoL3]4- 0 |
|
[MoL4]4- 0 |
| X+2Z = 1 | |
[MoX]4- 0 |
|
[MoLX]4- 0 |
|
[MoL2X]4- 0 |
|
[MoL3X]4- 0 |
|
| X+2Z = 2 | [MoZ]4- 0 |
|
[MoX2]4- 0 |
|
[MoLX2]4- 0 |
|
[MoL2X2]4- 0 |
|
[MoL3X2]4- 0 |
| X+2Z = 3 | |
[MoXZ]4- 0 |
|
[MoX3]4- 0 |
|
[MoLX3]4- 0 |
|
[MoL2X3]4- 0 |
|
| X+2Z = 4 | [MoZ2]4- 0 |
|
[MoX2Z]4- 0 |
|
[MoX4]4- 0 |
|
[MoLX4]4- 0 |
|
[MoL2X4]4- 0 |
| X+2Z = 5 | |
[MoXZ2]4- 0 |
|
[MoX3Z]4- 0 |
|
[MoX5]4- 0 |
|
[MoLX5]4- 0 |
|
| X+2Z = 6 | [MoZ3]4- 0 |
|
[MoX2Z2]4- 0 |
|
[MoX4Z]4- 0 |
|
[MoX6]4- 0 |
|
[MoLX6]4- 0 |
| X+2Z = 7 | |
[MoXZ3]4- 0 |
|
[MoX3Z2]4- 0 |
|
[MoX5Z]4- 0 |
|
[MoX7]4- 25% |
|
| X+2Z = 8 | [MoZ4]4- 0 |
|
[MoX2Z3]4- 0 |
|
[MoX4Z2]4- 0 |
|
[MoX6Z]4- 0 |
|
[MoX8]4- 75% |
| X+2Z = 9 | |
[MoXZ4]4- 0 |
|
[MoX3Z3]4- 0 |
|
[MoX5Z2]4- 0 |
|
[MoX7Z]4- 0 |
|
| X+2Z = 10 | [MoZ5]4- 0 |
|
[MoX2Z4]4- 0 |
|
[MoX4Z3]4- 0 |
|
[MoX6Z2]4- 0 |
|
[MoX8Z]4- 0 |
| X+2Z = 11 | |
[MoXZ5]4- 0 |
|
[MoX3Z4]4- 0 |
|
[MoX5Z3]4- 0 |
|
[MoX7Z2]4- 0 |
|
| X+2Z = 12 | [MoZ6]4- 0 |
|
[MoX2Z5]4- 0 |
|
[MoX4Z4]4- 0 |
|
[MoX6Z3]4- 0 |
|
[MoX8Z2]4- 0 |
MLXZq± grid for molybdenum (Mo) for Q = -3: [MoXxLlZz]3-
The number of compounds found is 8.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of molybdenum with that [MLXZ]q± classification.
| EN➝ | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[MoL]3- 0 |
|
[MoL2]3- 0 |
|
[MoL3]3- 0 |
|
[MoL4]3- 0 |
|
| X+2Z = 1 | [MoX]3- 0 |
|
[MoLX]3- 0 |
|
[MoL2X]3- 0 |
|
[MoL3X]3- 0 |
|
[MoL4X]3- 0 |
| X+2Z = 2 | |
[MoX2]3- 0 |
|
[MoLX2]3- 0 |
|
[MoL2X2]3- 0 |
|
[MoL3X2]3- 0 |
|
| X+2Z = 3 | [MoXZ]3- 0 |
|
[MoX3]3- 0 |
|
[MoLX3]3- 0 |
|
[MoL2X3]3- 0 |
|
[MoL3X3]3- 13% |
| X+2Z = 4 | |
[MoX2Z]3- 0 |
|
[MoX4]3- 0 |
|
[MoLX4]3- 0 |
|
[MoL2X4]3- 0 |
|
| X+2Z = 5 | [MoXZ2]3- 0 |
|
[MoX3Z]3- 0 |
|
[MoX5]3- 0 |
|
[MoLX5]3- 0 |
|
[MoL2X5]3- 0 |
| X+2Z = 6 | |
[MoX2Z2]3- 0 |
|
[MoX4Z]3- 0 |
|
[MoX6]3- 25% |
|
[MoLX6]3- 0 |
|
| X+2Z = 7 | [MoXZ3]3- 0 |
|
[MoX3Z2]3- 0 |
|
[MoX5Z]3- 0 |
|
[MoX7]3- 0 |
|
[MoLX7]3- 13% |
| X+2Z = 8 | |
[MoX2Z3]3- 0 |
|
[MoX4Z2]3- 0 |
|
[MoX6Z]3- 0 |
|
[MoX8]3- 38% |
|
| X+2Z = 9 | [MoXZ4]3- 0 |
|
[MoX3Z3]3- 0 |
|
[MoX5Z2]3- 0 |
|
[MoX7Z]3- 0 |
|
[MoX9]3- 13% |
| X+2Z = 10 | |
[MoX2Z4]3- 0 |
|
[MoX4Z3]3- 0 |
|
[MoX6Z2]3- 0 |
|
[MoX8Z]3- 0 |
|
| X+2Z = 11 | [MoXZ5]3- 0 |
|
[MoX3Z4]3- 0 |
|
[MoX5Z3]3- 0 |
|
[MoX7Z2]3- 0 |
|
[MoX9Z]3- 0 |
| X+2Z = 12 | |
[MoX2Z5]3- 0 |
|
[MoX4Z4]3- 0 |
|
[MoX6Z3]3- 0 |
|
[MoX8Z2]3- 0 |
|
MLXZq± grid for molybdenum (Mo) for Q = -2: [MoXxLlZz]2-
The number of compounds found is 32.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of molybdenum with that [MLXZ]q± classification.
| EN➝ | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [MoL]2- 0 |
|
[MoL2]2- 0 |
|
[MoL3]2- 0 |
|
[MoL4]2- 0 |
|
[MoL5]2- 0 |
| X+2Z = 1 | |
[MoLX]2- 0 |
|
[MoL2X]2- 0 |
|
[MoL3X]2- 0 |
|
[MoL4X]2- 0 |
|
| X+2Z = 2 | [MoX2]2- 0 |
|
[MoLX2]2- 0 |
|
[MoL2X2]2- 0 |
|
[MoL3X2]2- 0 |
|
[MoL4X2]2- 0 |
| X+2Z = 3 | |
[MoX3]2- 0 |
|
[MoLX3]2- 0 |
|
[MoL2X3]2- 0 |
|
[MoL3X3]2- 0 |
|
| X+2Z = 4 | [MoX2Z]2- 0 |
|
[MoX4]2- 0 |
|
[MoLX4]2- 0 |
|
[MoL2X4]2- 3% |
|
[MoL3X4]2- 0 |
| X+2Z = 5 | |
[MoX3Z]2- 0 |
|
[MoX5]2- 0 |
|
[MoLX5]2- 16% |
|
[MoL2X5]2- 0 |
|
| X+2Z = 6 | [MoX2Z2]2- 0 |
|
[MoX4Z]2- 0 |
|
[MoX6]2- 9% |
|
[MoLX6]2- 16% |
|
[MoL2X6]2- 6% |
| X+2Z = 7 | |
[MoX3Z2]2- 0 |
|
[MoX5Z]2- 0 |
|
[MoX7]2- 0 |
|
[MoLX7]2- 3% |
|
| X+2Z = 8 | [MoX2Z3]2- 0 |
|
[MoX4Z2]2- 0 |
|
[MoX6Z]2- 0 |
|
[MoX8]2- 31% |
|
[MoLX8]2- 16% |
| X+2Z = 9 | |
[MoX3Z3]2- 0 |
|
[MoX5Z2]2- 0 |
|
[MoX7Z]2- 0 |
|
[MoX9]2- 0 |
|
| X+2Z = 10 | [MoX2Z4]2- 0 |
|
[MoX4Z3]2- 0 |
|
[MoX6Z2]2- 0 |
|
[MoX8Z]2- 0 |
|
[MoX10]2- 0 |
| X+2Z = 11 | |
[MoX3Z4]2- 0 |
|
[MoX5Z3]2- 0 |
|
[MoX7Z2]2- 0 |
|
[MoX9Z]2- 0 |
|
| X+2Z = 12 | [MoX2Z5]2- 0 |
|
[MoX4Z4]2- 0 |
|
[MoX6Z3]2- 0 |
|
[MoX8Z2]2- 0 |
|
[MoX10Z]2- 0 |
MLXZq± grid for molybdenum (Mo) for Q = -1: [MoXxLlZz]-
The number of compounds found is 52.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of molybdenum with that [MLXZ]q± classification.
| EN➝ | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[MoL2]- 0 |
|
[MoL3]- 0 |
|
[MoL4]- 0 |
|
[MoL5]- 0 |
|
| X+2Z = 1 | [MoLX]- 0 |
|
[MoL2X]- 0 |
|
[MoL3X]- 0 |
|
[MoL4X]- 0 |
|
[MoL5X]- 12% |
| X+2Z = 2 | |
[MoLX2]- 0 |
|
[MoL2X2]- 0 |
|
[MoL3X2]- 0 |
|
[MoL4X2]- 0 |
|
| X+2Z = 3 | [MoX3]- 0 |
|
[MoLX3]- 0 |
|
[MoL2X3]- 0 |
|
[MoL3X3]- 0 |
|
[MoL4X3]- 4% |
| X+2Z = 4 | |
[MoX4]- 0 |
|
[MoLX4]- 0 |
|
[MoL2X4]- 19% |
|
[MoL3X4]- 0 |
|
| X+2Z = 5 | [MoX3Z]- 0 |
|
[MoX5]- 0 |
|
[MoLX5]- 0 |
|
[MoL2X5]- 6% |
|
[MoL3X5]- 2% |
| X+2Z = 6 | |
[MoX4Z]- 0 |
|
[MoX6]- 4% |
|
[MoLX6]- 6% |
|
[MoL2X6]- 8% |
|
| X+2Z = 7 | [MoX3Z2]- 0 |
|
[MoX5Z]- 0 |
|
[MoX7]- 15% |
|
[MoLX7]- 6% |
|
[MoL2X7]- 19% |
| X+2Z = 8 | |
[MoX4Z2]- 0 |
|
[MoX6Z]- 0 |
|
[MoX8]- 0 |
|
[MoLX8]- 0 |
|
| X+2Z = 9 | [MoX3Z3]- 0 |
|
[MoX5Z2]- 0 |
|
[MoX7Z]- 0 |
|
[MoX9]- 0 |
|
[MoLX9]- 0 |
| X+2Z = 10 | |
[MoX4Z3]- 0 |
|
[MoX6Z2]- 0 |
|
[MoX8Z]- 0 |
|
[MoX10]- 0 |
|
| X+2Z = 11 | [MoX3Z4]- 0 |
|
[MoX5Z3]- 0 |
|
[MoX7Z2]- 0 |
|
[MoX9Z]- 0 |
|
[MoX11]- 0 |
| X+2Z = 12 | |
[MoX4Z4]- 0 |
|
[MoX6Z3]- 0 |
|
[MoX8Z2]- 0 |
|
[MoX10Z]- 0 |
|
MLXZq± grid for molybdenum (Mo) for Q = 0: [MoXxLlZz]
The number of compounds found is 479.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of molybdenum with that [MLXZ]q± classification.
| EN➝ | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [MoL2] 0 |
|
[MoL3] 0 |
|
[MoL4] 0 |
|
[MoL5] 0.2% |
|
[MoL6] 15% |
| X+2Z = 1 | |
[MoL2X] 0 |
|
[MoL3X] 0 |
|
[MoL4X] 0 |
|
[MoL5X] 0.2% |
|
| X+2Z = 2 | [MoLX2] 0 |
|
[MoL2X2] 0.2% |
|
[MoL3X2] 0 |
|
[MoL4X2] 4% |
|
[MoL5X2] 16% |
| X+2Z = 3 | |
[MoLX3] 0 |
|
[MoL2X3] 0 |
|
[MoL3X3] 4% |
|
[MoL4X3] 3% |
|
| X+2Z = 4 | [MoX4] 0.4% |
|
[MoLX4] 0.4% |
|
[MoL2X4] 4% |
|
[MoL3X4] 3% |
|
[MoL4X4] 19% |
| X+2Z = 5 | |
[MoX5] 0.2% |
|
[MoLX5] 0.4% |
|
[MoL2X5] 1% |
|
[MoL3X5] 3% |
|
| X+2Z = 6 | [MoX4Z] 0 |
|
[MoX6] 3% |
|
[MoLX6] 3% |
|
[MoL2X6] 8% |
|
[MoL3X6] 13% |
| X+2Z = 7 | |
[MoX5Z] 0 |
|
[MoX7] 0 |
|
[MoLX7] 0 |
|
[MoL2X7] 0 |
|
| X+2Z = 8 | [MoX4Z2] 0 |
|
[MoX6Z] 0 |
|
[MoX8] 0 |
|
[MoLX8] 0 |
|
[MoL2X8] 0 |
| X+2Z = 9 | |
[MoX5Z2] 0 |
|
[MoX7Z] 0 |
|
[MoX9] 0 |
|
[MoLX9] 0 |
|
| X+2Z = 10 | [MoX4Z3] 0 |
|
[MoX6Z2] 0 |
|
[MoX8Z] 0 |
|
[MoX10] 0 |
|
[MoLX10] 0 |
| X+2Z = 11 | |
[MoX5Z3] 0 |
|
[MoX7Z2] 0 |
|
[MoX9Z] 0 |
|
[MoX11] 0 |
|
| X+2Z = 12 | [MoX4Z4] 0 |
|
[MoX6Z3] 0 |
|
[MoX8Z2] 0 |
|
[MoX10Z] 0 |
|
[MoX12] 0 |
MLXZq± grid for molybdenum (Mo) for Q = 1: [MoXxLlZz]+
The number of compounds found is 38.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of molybdenum with that [MLXZ]q± classification.
| EN➝ | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[MoL3]+ 0 |
|
[MoL4]+ 0 |
|
[MoL5]+ 0 |
|
[MoL6]+ 5% |
|
| X+2Z = 1 | [MoL2X]+ 0 |
|
[MoL3X]+ 0 |
|
[MoL4X]+ 0 |
|
[MoL5X]+ 5% |
|
[MoL6X]+ 42% |
| X+2Z = 2 | |
[MoL2X2]+ 0 |
|
[MoL3X2]+ 0 |
|
[MoL4X2]+ 11% |
|
[MoL5X2]+ 0 |
|
| X+2Z = 3 | [MoLX3]+ 0 |
|
[MoL2X3]+ 0 |
|
[MoL3X3]+ 0 |
|
[MoL4X3]+ 11% |
|
[MoL5X3]+ 13% |
| X+2Z = 4 | |
[MoLX4]+ 0 |
|
[MoL2X4]+ 0 |
|
[MoL3X4]+ 0 |
|
[MoL4X4]+ 11% |
|
| X+2Z = 5 | [MoX5]+ 0 |
|
[MoLX5]+ 0 |
|
[MoL2X5]+ 0 |
|
[MoL3X5]+ 0 |
|
[MoL4X5]+ 3% |
| X+2Z = 6 | |
[MoX6]+ 0 |
|
[MoLX6]+ 0 |
|
[MoL2X6]+ 0 |
|
[MoL3X6]+ 0 |
|
| X+2Z = 7 | [MoX5Z]+ 0 |
|
[MoX7]+ 0 |
|
[MoLX7]+ 0 |
|
[MoL2X7]+ 0 |
|
[MoL3X7]+ 0 |
| X+2Z = 8 | |
[MoX6Z]+ 0 |
|
[MoX8]+ 0 |
|
[MoLX8]+ 0 |
|
[MoL2X8]+ 0 |
|
| X+2Z = 9 | [MoX5Z2]+ 0 |
|
[MoX7Z]+ 0 |
|
[MoX9]+ 0 |
|
[MoLX9]+ 0 |
|
[MoL2X9]+ 0 |
| X+2Z = 10 | |
[MoX6Z2]+ 0 |
|
[MoX8Z]+ 0 |
|
[MoX10]+ 0 |
|
[MoLX10]+ 0 |
|
| X+2Z = 11 | [MoX5Z3]+ 0 |
|
[MoX7Z2]+ 0 |
|
[MoX9Z]+ 0 |
|
[MoX11]+ 0 |
|
[MoLX11]+ 0 |
| X+2Z = 12 | |
[MoX6Z3]+ 0 |
|
[MoX8Z2]+ 0 |
|
[MoX10Z]+ 0 |
|
[MoX12]+ 0 |
|
MLXZq± grid for molybdenum (Mo) for Q = 2: [MoXxLlZz]2+
The number of compounds found is 4.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of molybdenum with that [MLXZ]q± classification.
| EN➝ | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [MoL3]2+ 0 |
|
[MoL4]2+ 0 |
|
[MoL5]2+ 0 |
|
[MoL6]2+ 0 |
|
[MoL7]2+ 75% |
| X+2Z = 1 | |
[MoL3X]2+ 0 |
|
[MoL4X]2+ 0 |
|
[MoL5X]2+ 0 |
|
[MoL6X]2+ 0 |
|
| X+2Z = 2 | [MoL2X2]2+ 0 |
|
[MoL3X2]2+ 0 |
|
[MoL4X2]2+ 25% |
|
[MoL5X2]2+ 0 |
|
[MoL6X2]2+ 0 |
| X+2Z = 3 | |
[MoL2X3]2+ 0 |
|
[MoL3X3]2+ 0 |
|
[MoL4X3]2+ 0 |
|
[MoL5X3]2+ 0 |
|
| X+2Z = 4 | [MoLX4]2+ 0 |
|
[MoL2X4]2+ 0 |
|
[MoL3X4]2+ 0 |
|
[MoL4X4]2+ 0 |
|
[MoL5X4]2+ 0 |
| X+2Z = 5 | |
[MoLX5]2+ 0 |
|
[MoL2X5]2+ 0 |
|
[MoL3X5]2+ 0 |
|
[MoL4X5]2+ 0 |
|
| X+2Z = 6 | [MoX6]2+ 0 |
|
[MoLX6]2+ 0 |
|
[MoL2X6]2+ 0 |
|
[MoL3X6]2+ 0 |
|
[MoL4X6]2+ 0 |
| X+2Z = 7 | |
[MoX7]2+ 0 |
|
[MoLX7]2+ 0 |
|
[MoL2X7]2+ 0 |
|
[MoL3X7]2+ 0 |
|
| X+2Z = 8 | [MoX6Z]2+ 0 |
|
[MoX8]2+ 0 |
|
[MoLX8]2+ 0 |
|
[MoL2X8]2+ 0 |
|
[MoL3X8]2+ 0 |
| X+2Z = 9 | |
[MoX7Z]2+ 0 |
|
[MoX9]2+ 0 |
|
[MoLX9]2+ 0 |
|
[MoL2X9]2+ 0 |
|
| X+2Z = 10 | [MoX6Z2]2+ 0 |
|
[MoX8Z]2+ 0 |
|
[MoX10]2+ 0 |
|
[MoLX10]2+ 0 |
|
[MoL2X10]2+ 0 |
| X+2Z = 11 | |
[MoX7Z2]2+ 0 |
|
[MoX9Z]2+ 0 |
|
[MoX11]2+ 0 |
|
[MoLX11]2+ 0 |
|
| X+2Z = 12 | [MoX6Z3]2+ 0 |
|
[MoX8Z2]2+ 0 |
|
[MoX10Z]2+ 0 |
|
[MoX12]2+ 0 |
|
[MoLX12]2+ 0 |
MLXZq± grid for molybdenum (Mo) for Q = 3: [MoXxLlZz]3+
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of molybdenum with that [MLXZ]q± classification.
| EN➝ | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[MoL4]3+ 0 |
|
[MoL5]3+ 0 |
|
[MoL6]3+ 100% |
|
[MoL7]3+ 0 |
|
| X+2Z = 1 | [MoL3X]3+ 0 |
|
[MoL4X]3+ 0 |
|
[MoL5X]3+ 0 |
|
[MoL6X]3+ 0 |
|
[MoL7X]3+ 0 |
| X+2Z = 2 | |
[MoL3X2]3+ 0 |
|
[MoL4X2]3+ 0 |
|
[MoL5X2]3+ 0 |
|
[MoL6X2]3+ 0 |
|
| X+2Z = 3 | [MoL2X3]3+ 0 |
|
[MoL3X3]3+ 0 |
|
[MoL4X3]3+ 0 |
|
[MoL5X3]3+ 0 |
|
[MoL6X3]3+ 0 |
| X+2Z = 4 | |
[MoL2X4]3+ 0 |
|
[MoL3X4]3+ 0 |
|
[MoL4X4]3+ 0 |
|
[MoL5X4]3+ 0 |
|
| X+2Z = 5 | [MoLX5]3+ 0 |
|
[MoL2X5]3+ 0 |
|
[MoL3X5]3+ 0 |
|
[MoL4X5]3+ 0 |
|
[MoL5X5]3+ 0 |
| X+2Z = 6 | |
[MoLX6]3+ 0 |
|
[MoL2X6]3+ 0 |
|
[MoL3X6]3+ 0 |
|
[MoL4X6]3+ 0 |
|
| X+2Z = 7 | [MoX7]3+ 0 |
|
[MoLX7]3+ 0 |
|
[MoL2X7]3+ 0 |
|
[MoL3X7]3+ 0 |
|
[MoL4X7]3+ 0 |
| X+2Z = 8 | |
[MoX8]3+ 0 |
|
[MoLX8]3+ 0 |
|
[MoL2X8]3+ 0 |
|
[MoL3X8]3+ 0 |
|
| X+2Z = 9 | [MoX7Z]3+ 0 |
|
[MoX9]3+ 0 |
|
[MoLX9]3+ 0 |
|
[MoL2X9]3+ 0 |
|
[MoL3X9]3+ 0 |
| X+2Z = 10 | |
[MoX8Z]3+ 0 |
|
[MoX10]3+ 0 |
|
[MoLX10]3+ 0 |
|
[MoL2X10]3+ 0 |
|
| X+2Z = 11 | [MoX7Z2]3+ 0 |
|
[MoX9Z]3+ 0 |
|
[MoX11]3+ 0 |
|
[MoLX11]3+ 0 |
|
[MoL2X11]3+ 0 |
| X+2Z = 12 | |
[MoX8Z2]3+ 0 |
|
[MoX10Z]3+ 0 |
|
[MoX12]3+ 0 |
|
[MoLX12]3+ 0 |
|
MLXZq± grid for molybdenum (Mo) for Q = 4: [MoXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for technetium (Tc) for Q = -6: [TcXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for technetium (Tc) for Q = -5: [TcXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for technetium (Tc) for Q = -4: [TcXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for technetium (Tc) for Q = -3: [TcXxLlZz]3-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of technetium with that [MLXZ]q± classification.
| EN➝ | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[TcL2]3- 0 |
|
[TcL3]3- 0 |
|
[TcL4]3- 0 |
| X+2Z = 1 | [TcLX]3- 0 |
|
[TcL2X]3- 0 |
|
[TcL3X]3- 0 |
|
| X+2Z = 2 | |
[TcLX2]3- 0 |
|
[TcL2X2]3- 0 |
|
[TcL3X2]3- 0 |
| X+2Z = 3 | [TcX3]3- 0 |
|
[TcLX3]3- 0 |
|
[TcL2X3]3- 0 |
|
| X+2Z = 4 | |
[TcX4]3- 0 |
|
[TcLX4]3- 0 |
|
[TcL2X4]3- 0 |
| X+2Z = 5 | [TcX3Z]3- 0 |
|
[TcX5]3- 0 |
|
[TcLX5]3- 0 |
|
| X+2Z = 6 | |
[TcX4Z]3- 0 |
|
[TcX6]3- 50% |
|
[TcLX6]3- 0 |
| X+2Z = 7 | [TcX3Z2]3- 0 |
|
[TcX5Z]3- 0 |
|
[TcX7]3- 0 |
|
| X+2Z = 8 | |
[TcX4Z2]3- 0 |
|
[TcX6Z]3- 0 |
|
[TcX8]3- 50% |
| X+2Z = 9 | [TcX3Z3]3- 0 |
|
[TcX5Z2]3- 0 |
|
[TcX7Z]3- 0 |
|
| X+2Z = 10 | |
[TcX4Z3]3- 0 |
|
[TcX6Z2]3- 0 |
|
[TcX8Z]3- 0 |
| X+2Z = 11 | [TcX3Z4]3- 0 |
|
[TcX5Z3]3- 0 |
|
[TcX7Z2]3- 0 |
|
| X+2Z = 12 | |
[TcX4Z4]3- 0 |
|
[TcX6Z3]3- 0 |
|
[TcX8Z2]3- 0 |
MLXZq± grid for technetium (Tc) for Q = -2: [TcXxLlZz]2-
The number of compounds found is 19.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of technetium with that [MLXZ]q± classification.
| EN➝ | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|
| X+2Z = 0 | [TcL2]2- 0 |
|
[TcL3]2- 0 |
|
[TcL4]2- 0 |
|
| X+2Z = 1 | |
[TcL2X]2- 0 |
|
[TcL3X]2- 0 |
|
[TcL4X]2- 0 |
| X+2Z = 2 | [TcLX2]2- 0 |
|
[TcL2X2]2- 0 |
|
[TcL3X2]2- 0 |
|
| X+2Z = 3 | |
[TcLX3]2- 0 |
|
[TcL2X3]2- 0 |
|
[TcL3X3]2- 5% |
| X+2Z = 4 | [TcX4]2- 5% |
|
[TcLX4]2- 0 |
|
[TcL2X4]2- 5% |
|
| X+2Z = 5 | |
[TcX5]2- 0 |
|
[TcLX5]2- 0 |
|
[TcL2X5]2- 0 |
| X+2Z = 6 | [TcX4Z]2- 0 |
|
[TcX6]2- 32% |
|
[TcLX6]2- 0 |
|
| X+2Z = 7 | |
[TcX5Z]2- 0 |
|
[TcX7]2- 21% |
|
[TcLX7]2- 21% |
| X+2Z = 8 | [TcX4Z2]2- 0 |
|
[TcX6Z]2- 0 |
|
[TcX8]2- 11% |
|
| X+2Z = 9 | |
[TcX5Z2]2- 0 |
|
[TcX7Z]2- 0 |
|
[TcX9]2- 0 |
| X+2Z = 10 | [TcX4Z3]2- 0 |
|
[TcX6Z2]2- 0 |
|
[TcX8Z]2- 0 |
|
| X+2Z = 11 | |
[TcX5Z3]2- 0 |
|
[TcX7Z2]2- 0 |
|
[TcX9Z]2- 0 |
| X+2Z = 12 | [TcX4Z4]2- 0 |
|
[TcX6Z3]2- 0 |
|
[TcX8Z2]2- 0 |
|
MLXZq± grid for technetium (Tc) for Q = -1: [TcXxLlZz]-
The number of compounds found is 29.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of technetium with that [MLXZ]q± classification.
| EN➝ | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[TcL3]- 0 |
|
[TcL4]- 0 |
|
[TcL5]- 0 |
| X+2Z = 1 | [TcL2X]- 0 |
|
[TcL3X]- 0 |
|
[TcL4X]- 0 |
|
| X+2Z = 2 | |
[TcL2X2]- 0 |
|
[TcL3X2]- 0 |
|
[TcL4X2]- 3% |
| X+2Z = 3 | [TcLX3]- 0 |
|
[TcL2X3]- 0 |
|
[TcL3X3]- 0 |
|
| X+2Z = 4 | |
[TcLX4]- 0 |
|
[TcL2X4]- 3% |
|
[TcL3X4]- 0 |
| X+2Z = 5 | [TcX5]- 0 |
|
[TcLX5]- 10% |
|
[TcL2X5]- 0 |
|
| X+2Z = 6 | |
[TcX6]- 7% |
|
[TcLX6]- 34% |
|
[TcL2X6]- 3% |
| X+2Z = 7 | [TcX5Z]- 0 |
|
[TcX7]- 7% |
|
[TcLX7]- 17% |
|
| X+2Z = 8 | |
[TcX6Z]- 0 |
|
[TcX8]- 10% |
|
[TcLX8]- 3% |
| X+2Z = 9 | [TcX5Z2]- 0 |
|
[TcX7Z]- 0 |
|
[TcX9]- 0 |
|
| X+2Z = 10 | |
[TcX6Z2]- 0 |
|
[TcX8Z]- 0 |
|
[TcX10]- 0 |
| X+2Z = 11 | [TcX5Z3]- 0 |
|
[TcX7Z2]- 0 |
|
[TcX9Z]- 0 |
|
| X+2Z = 12 | |
[TcX6Z3]- 0 |
|
[TcX8Z2]- 0 |
|
[TcX10Z]- 0 |
MLXZq± grid for technetium (Tc) for Q = 0: [TcXxLlZz]
The number of compounds found is 147.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of technetium with that [MLXZ]q± classification.
| EN➝ | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|
| X+2Z = 0 | [TcL3] 0 |
|
[TcL4] 0 |
|
[TcL5] 0 |
|
| X+2Z = 1 | |
[TcL3X] 0 |
|
[TcL4X] 1% |
|
[TcL5X] 31% |
| X+2Z = 2 | [TcL2X2] 0 |
|
[TcL3X2] 0 |
|
[TcL4X2] 6% |
|
| X+2Z = 3 | |
[TcL2X3] 2% |
|
[TcL3X3] 10% |
|
[TcL4X3] 5% |
| X+2Z = 4 | [TcLX4] 0 |
|
[TcL2X4] 11% |
|
[TcL3X4] 0 |
|
| X+2Z = 5 | |
[TcLX5] 0 |
|
[TcL2X5] 7% |
|
[TcL3X5] 12% |
| X+2Z = 6 | [TcX6] 0 |
|
[TcLX6] 0 |
|
[TcL2X6] 3% |
|
| X+2Z = 7 | |
[TcX7] 2% |
|
[TcLX7] 2% |
|
[TcL2X7] 7% |
| X+2Z = 8 | [TcX6Z] 0 |
|
[TcX8] 0 |
|
[TcLX8] 0 |
|
| X+2Z = 9 | |
[TcX7Z] 0 |
|
[TcX9] 0 |
|
[TcLX9] 0 |
| X+2Z = 10 | [TcX6Z2] 0 |
|
[TcX8Z] 0 |
|
[TcX10] 0 |
|
| X+2Z = 11 | |
[TcX7Z2] 0 |
|
[TcX9Z] 0 |
|
[TcX11] 0 |
| X+2Z = 12 | [TcX6Z3] 0 |
|
[TcX8Z2] 0 |
|
[TcX10Z] 0 |
|
MLXZq± grid for technetium (Tc) for Q = 1: [TcXxLlZz]+
The number of compounds found is 70.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of technetium with that [MLXZ]q± classification.
| EN➝ | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[TcL4]+ 0 |
|
[TcL5]+ 0 |
|
[TcL6]+ 30% |
| X+2Z = 1 | [TcL3X]+ 0 |
|
[TcL4X]+ 0 |
|
[TcL5X]+ 4% |
|
| X+2Z = 2 | |
[TcL3X2]+ 0 |
|
[TcL4X2]+ 23% |
|
[TcL5X2]+ 1% |
| X+2Z = 3 | [TcL2X3]+ 0 |
|
[TcL3X3]+ 1% |
|
[TcL4X3]+ 0 |
|
| X+2Z = 4 | |
[TcL2X4]+ 0 |
|
[TcL3X4]+ 1% |
|
[TcL4X4]+ 34% |
| X+2Z = 5 | [TcLX5]+ 0 |
|
[TcL2X5]+ 0 |
|
[TcL3X5]+ 1% |
|
| X+2Z = 6 | |
[TcLX6]+ 0 |
|
[TcL2X6]+ 1% |
|
[TcL3X6]+ 1% |
| X+2Z = 7 | [TcX7]+ 0 |
|
[TcLX7]+ 0 |
|
[TcL2X7]+ 0 |
|
| X+2Z = 8 | |
[TcX8]+ 0 |
|
[TcLX8]+ 0 |
|
[TcL2X8]+ 0 |
| X+2Z = 9 | [TcX7Z]+ 0 |
|
[TcX9]+ 0 |
|
[TcLX9]+ 0 |
|
| X+2Z = 10 | |
[TcX8Z]+ 0 |
|
[TcX10]+ 0 |
|
[TcLX10]+ 0 |
| X+2Z = 11 | [TcX7Z2]+ 0 |
|
[TcX9Z]+ 0 |
|
[TcX11]+ 0 |
|
| X+2Z = 12 | |
[TcX8Z2]+ 0 |
|
[TcX10Z]+ 0 |
|
[TcX12]+ 0 |
MLXZq± grid for technetium (Tc) for Q = 2: [TcXxLlZz]2+
The number of compounds found is 9.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of technetium with that [MLXZ]q± classification.
| EN➝ | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|
| X+2Z = 0 | [TcL4]2+ 11% |
|
[TcL5]2+ 0 |
|
[TcL6]2+ 44% |
|
| X+2Z = 1 | |
[TcL4X]2+ 0 |
|
[TcL5X]2+ 0 |
|
[TcL6X]2+ 0 |
| X+2Z = 2 | [TcL3X2]2+ 0 |
|
[TcL4X2]2+ 0 |
|
[TcL5X2]2+ 0 |
|
| X+2Z = 3 | |
[TcL3X3]2+ 0 |
|
[TcL4X3]2+ 11% |
|
[TcL5X3]2+ 33% |
| X+2Z = 4 | [TcL2X4]2+ 0 |
|
[TcL3X4]2+ 0 |
|
[TcL4X4]2+ 0 |
|
| X+2Z = 5 | |
[TcL2X5]2+ 0 |
|
[TcL3X5]2+ 0 |
|
[TcL4X5]2+ 0 |
| X+2Z = 6 | [TcLX6]2+ 0 |
|
[TcL2X6]2+ 0 |
|
[TcL3X6]2+ 0 |
|
| X+2Z = 7 | |
[TcLX7]2+ 0 |
|
[TcL2X7]2+ 0 |
|
[TcL3X7]2+ 0 |
| X+2Z = 8 | [TcX8]2+ 0 |
|
[TcLX8]2+ 0 |
|
[TcL2X8]2+ 0 |
|
| X+2Z = 9 | |
[TcX9]2+ 0 |
|
[TcLX9]2+ 0 |
|
[TcL2X9]2+ 0 |
| X+2Z = 10 | [TcX8Z]2+ 0 |
|
[TcX10]2+ 0 |
|
[TcLX10]2+ 0 |
|
| X+2Z = 11 | |
[TcX9Z]2+ 0 |
|
[TcX11]2+ 0 |
|
[TcLX11]2+ 0 |
| X+2Z = 12 | [TcX8Z2]2+ 0 |
|
[TcX10Z]2+ 0 |
|
[TcX12]2+ 0 |
|
MLXZq± grid for technetium (Tc) for Q = 3: [TcXxLlZz]3+
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of technetium with that [MLXZ]q± classification.
| EN➝ | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[TcL5]3+ 0 |
|
[TcL6]3+ 100% |
|
[TcL7]3+ 0 |
| X+2Z = 1 | [TcL4X]3+ 0 |
|
[TcL5X]3+ 0 |
|
[TcL6X]3+ 0 |
|
| X+2Z = 2 | |
[TcL4X2]3+ 0 |
|
[TcL5X2]3+ 0 |
|
[TcL6X2]3+ 0 |
| X+2Z = 3 | [TcL3X3]3+ 0 |
|
[TcL4X3]3+ 0 |
|
[TcL5X3]3+ 0 |
|
| X+2Z = 4 | |
[TcL3X4]3+ 0 |
|
[TcL4X4]3+ 0 |
|
[TcL5X4]3+ 0 |
| X+2Z = 5 | [TcL2X5]3+ 0 |
|
[TcL3X5]3+ 0 |
|
[TcL4X5]3+ 0 |
|
| X+2Z = 6 | |
[TcL2X6]3+ 0 |
|
[TcL3X6]3+ 0 |
|
[TcL4X6]3+ 0 |
| X+2Z = 7 | [TcLX7]3+ 0 |
|
[TcL2X7]3+ 0 |
|
[TcL3X7]3+ 0 |
|
| X+2Z = 8 | |
[TcLX8]3+ 0 |
|
[TcL2X8]3+ 0 |
|
[TcL3X8]3+ 0 |
| X+2Z = 9 | [TcX9]3+ 0 |
|
[TcLX9]3+ 0 |
|
[TcL2X9]3+ 0 |
|
| X+2Z = 10 | |
[TcX10]3+ 0 |
|
[TcLX10]3+ 0 |
|
[TcL2X10]3+ 0 |
| X+2Z = 11 | [TcX9Z]3+ 0 |
|
[TcX11]3+ 0 |
|
[TcLX11]3+ 0 |
|
| X+2Z = 12 | |
[TcX10Z]3+ 0 |
|
[TcX12]3+ 0 |
|
[TcLX12]3+ 0 |
MLXZq± grid for technetium (Tc) for Q = 4: [TcXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for ruthenium (Ru) for Q = -6: [RuXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for ruthenium (Ru) for Q = -5: [RuXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for ruthenium (Ru) for Q = -4: [RuXxLlZz]4-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of ruthenium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Ru]4- 0 |
|
[RuL]4- 0 |
|
[RuL2]4- 0 |
|
[RuL3]4- 0 |
| X+2Z = 1 | |
[RuX]4- 0 |
|
[RuLX]4- 0 |
|
[RuL2X]4- 0 |
|
| X+2Z = 2 | [RuZ]4- 0 |
|
[RuX2]4- 0 |
|
[RuLX2]4- 0 |
|
[RuL2X2]4- 0 |
| X+2Z = 3 | |
[RuXZ]4- 0 |
|
[RuX3]4- 0 |
|
[RuLX3]4- 0 |
|
| X+2Z = 4 | [RuZ2]4- 0 |
|
[RuX2Z]4- 0 |
|
[RuX4]4- 0 |
|
[RuLX4]4- 0 |
| X+2Z = 5 | |
[RuXZ2]4- 0 |
|
[RuX3Z]4- 0 |
|
[RuX5]4- 0 |
|
| X+2Z = 6 | [RuZ3]4- 0 |
|
[RuX2Z2]4- 0 |
|
[RuX4Z]4- 0 |
|
[RuX6]4- 100% |
| X+2Z = 7 | |
[RuXZ3]4- 0 |
|
[RuX3Z2]4- 0 |
|
[RuX5Z]4- 0 |
|
| X+2Z = 8 | [RuZ4]4- 0 |
|
[RuX2Z3]4- 0 |
|
[RuX4Z2]4- 0 |
|
[RuX6Z]4- 0 |
| X+2Z = 9 | |
[RuXZ4]4- 0 |
|
[RuX3Z3]4- 0 |
|
[RuX5Z2]4- 0 |
|
| X+2Z = 10 | [RuZ5]4- 0 |
|
[RuX2Z4]4- 0 |
|
[RuX4Z3]4- 0 |
|
[RuX6Z2]4- 0 |
| X+2Z = 11 | |
[RuXZ5]4- 0 |
|
[RuX3Z4]4- 0 |
|
[RuX5Z3]4- 0 |
|
| X+2Z = 12 | [RuZ6]4- 0 |
|
[RuX2Z5]4- 0 |
|
[RuX4Z4]4- 0 |
|
[RuX6Z3]4- 0 |
MLXZq± grid for ruthenium (Ru) for Q = -3: [RuXxLlZz]3-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of ruthenium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[RuL]3- 0 |
|
[RuL2]3- 0 |
|
[RuL3]3- 0 |
|
| X+2Z = 1 | [RuX]3- 0 |
|
[RuLX]3- 0 |
|
[RuL2X]3- 0 |
|
[RuL3X]3- 0 |
| X+2Z = 2 | |
[RuX2]3- 0 |
|
[RuLX2]3- 0 |
|
[RuL2X2]3- 0 |
|
| X+2Z = 3 | [RuXZ]3- 0 |
|
[RuX3]3- 0 |
|
[RuLX3]3- 0 |
|
[RuL2X3]3- 0 |
| X+2Z = 4 | |
[RuX2Z]3- 0 |
|
[RuX4]3- 0 |
|
[RuLX4]3- 0 |
|
| X+2Z = 5 | [RuXZ2]3- 0 |
|
[RuX3Z]3- 0 |
|
[RuX5]3- 0 |
|
[RuLX5]3- 0 |
| X+2Z = 6 | |
[RuX2Z2]3- 0 |
|
[RuX4Z]3- 0 |
|
[RuX6]3- 100% |
|
| X+2Z = 7 | [RuXZ3]3- 0 |
|
[RuX3Z2]3- 0 |
|
[RuX5Z]3- 0 |
|
[RuX7]3- 0 |
| X+2Z = 8 | |
[RuX2Z3]3- 0 |
|
[RuX4Z2]3- 0 |
|
[RuX6Z]3- 0 |
|
| X+2Z = 9 | [RuXZ4]3- 0 |
|
[RuX3Z3]3- 0 |
|
[RuX5Z2]3- 0 |
|
[RuX7Z]3- 0 |
| X+2Z = 10 | |
[RuX2Z4]3- 0 |
|
[RuX4Z3]3- 0 |
|
[RuX6Z2]3- 0 |
|
| X+2Z = 11 | [RuXZ5]3- 0 |
|
[RuX3Z4]3- 0 |
|
[RuX5Z3]3- 0 |
|
[RuX7Z2]3- 0 |
| X+2Z = 12 | |
[RuX2Z5]3- 0 |
|
[RuX4Z4]3- 0 |
|
[RuX6Z3]3- 0 |
|
MLXZq± grid for ruthenium (Ru) for Q = -2: [RuXxLlZz]2-
The number of compounds found is 14.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of ruthenium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [RuL]2- 0 |
|
[RuL2]2- 0 |
|
[RuL3]2- 0 |
|
[RuL4]2- 0 |
| X+2Z = 1 | |
[RuLX]2- 0 |
|
[RuL2X]2- 0 |
|
[RuL3X]2- 0 |
|
| X+2Z = 2 | [RuX2]2- 0 |
|
[RuLX2]2- 0 |
|
[RuL2X2]2- 0 |
|
[RuL3X2]2- 0 |
| X+2Z = 3 | |
[RuX3]2- 0 |
|
[RuLX3]2- 0 |
|
[RuL2X3]2- 0 |
|
| X+2Z = 4 | [RuX2Z]2- 0 |
|
[RuX4]2- 0 |
|
[RuLX4]2- 0 |
|
[RuL2X4]2- 7% |
| X+2Z = 5 | |
[RuX3Z]2- 0 |
|
[RuX5]2- 0 |
|
[RuLX5]2- 14% |
|
| X+2Z = 6 | [RuX2Z2]2- 0 |
|
[RuX4Z]2- 0 |
|
[RuX6]2- 36% |
|
[RuLX6]2- 7% |
| X+2Z = 7 | |
[RuX3Z2]2- 0 |
|
[RuX5Z]2- 0 |
|
[RuX7]2- 0 |
|
| X+2Z = 8 | [RuX2Z3]2- 0 |
|
[RuX4Z2]2- 0 |
|
[RuX6Z]2- 0 |
|
[RuX8]2- 36% |
| X+2Z = 9 | |
[RuX3Z3]2- 0 |
|
[RuX5Z2]2- 0 |
|
[RuX7Z]2- 0 |
|
| X+2Z = 10 | [RuX2Z4]2- 0 |
|
[RuX4Z3]2- 0 |
|
[RuX6Z2]2- 0 |
|
[RuX8Z]2- 0 |
| X+2Z = 11 | |
[RuX3Z4]2- 0 |
|
[RuX5Z3]2- 0 |
|
[RuX7Z2]2- 0 |
|
| X+2Z = 12 | [RuX2Z5]2- 0 |
|
[RuX4Z4]2- 0 |
|
[RuX6Z3]2- 0 |
|
[RuX8Z2]2- 0 |
MLXZq± grid for ruthenium (Ru) for Q = -1: [RuXxLlZz]-
The number of compounds found is 38.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of ruthenium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[RuL2]- 0 |
|
[RuL3]- 0 |
|
[RuL4]- 0 |
|
| X+2Z = 1 | [RuLX]- 0 |
|
[RuL2X]- 0 |
|
[RuL3X]- 0 |
|
[RuL4X]- 3% |
| X+2Z = 2 | |
[RuLX2]- 0 |
|
[RuL2X2]- 0 |
|
[RuL3X2]- 0 |
|
| X+2Z = 3 | [RuX3]- 0 |
|
[RuLX3]- 3% |
|
[RuL2X3]- 0 |
|
[RuL3X3]- 26% |
| X+2Z = 4 | |
[RuX4]- 0 |
|
[RuLX4]- 0 |
|
[RuL2X4]- 18% |
|
| X+2Z = 5 | [RuX3Z]- 0 |
|
[RuX5]- 3% |
|
[RuLX5]- 3% |
|
[RuL2X5]- 0 |
| X+2Z = 6 | |
[RuX4Z]- 0 |
|
[RuX6]- 3% |
|
[RuLX6]- 0 |
|
| X+2Z = 7 | [RuX3Z2]- 0 |
|
[RuX5Z]- 0 |
|
[RuX7]- 24% |
|
[RuLX7]- 16% |
| X+2Z = 8 | |
[RuX4Z2]- 0 |
|
[RuX6Z]- 0 |
|
[RuX8]- 3% |
|
| X+2Z = 9 | [RuX3Z3]- 0 |
|
[RuX5Z2]- 0 |
|
[RuX7Z]- 0 |
|
[RuX9]- 0 |
| X+2Z = 10 | |
[RuX4Z3]- 0 |
|
[RuX6Z2]- 0 |
|
[RuX8Z]- 0 |
|
| X+2Z = 11 | [RuX3Z4]- 0 |
|
[RuX5Z3]- 0 |
|
[RuX7Z2]- 0 |
|
[RuX9Z]- 0 |
| X+2Z = 12 | |
[RuX4Z4]- 0 |
|
[RuX6Z3]- 0 |
|
[RuX8Z2]- 0 |
|
MLXZq± grid for ruthenium (Ru) for Q = 0: [RuXxLlZz]
The number of compounds found is 369.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of ruthenium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [RuL2] 0 |
|
[RuL3] 0 |
|
[RuL4] 0.3% |
|
[RuL5] 7% |
| X+2Z = 1 | |
[RuL2X] 0 |
|
[RuL3X] 0 |
|
[RuL4X] 0 |
|
| X+2Z = 2 | [RuLX2] 0 |
|
[RuL2X2] 1% |
|
[RuL3X2] 4% |
|
[RuL4X2] 57% |
| X+2Z = 3 | |
[RuLX3] 0 |
|
[RuL2X3] 0 |
|
[RuL3X3] 7% |
|
| X+2Z = 4 | [RuX4] 1% |
|
[RuLX4] 0.3% |
|
[RuL2X4] 4% |
|
[RuL3X4] 8% |
| X+2Z = 5 | |
[RuX5] 0 |
|
[RuLX5] 0.3% |
|
[RuL2X5] 0 |
|
| X+2Z = 6 | [RuX4Z] 0 |
|
[RuX6] 0 |
|
[RuLX6] 1% |
|
[RuL2X6] 11% |
| X+2Z = 7 | |
[RuX5Z] 0 |
|
[RuX7] 0 |
|
[RuLX7] 0 |
|
| X+2Z = 8 | [RuX4Z2] 0 |
|
[RuX6Z] 0 |
|
[RuX8] 0 |
|
[RuLX8] 0.3% |
| X+2Z = 9 | |
[RuX5Z2] 0 |
|
[RuX7Z] 0 |
|
[RuX9] 0 |
|
| X+2Z = 10 | [RuX4Z3] 0 |
|
[RuX6Z2] 0 |
|
[RuX8Z] 0 |
|
[RuX10] 0 |
| X+2Z = 11 | |
[RuX5Z3] 0 |
|
[RuX7Z2] 0 |
|
[RuX9Z] 0 |
|
| X+2Z = 12 | [RuX4Z4] 0 |
|
[RuX6Z3] 0 |
|
[RuX8Z2] 0 |
|
[RuX10Z] 0 |
MLXZq± grid for ruthenium (Ru) for Q = 1: [RuXxLlZz]+
The number of compounds found is 120.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of ruthenium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[RuL3]+ 0 |
|
[RuL4]+ 0 |
|
[RuL5]+ 0 |
|
| X+2Z = 1 | [RuL2X]+ 0 |
|
[RuL3X]+ 0 |
|
[RuL4X]+ 3% |
|
[RuL5X]+ 68% |
| X+2Z = 2 | |
[RuL2X2]+ 0 |
|
[RuL3X2]+ 0 |
|
[RuL4X2]+ 8% |
|
| X+2Z = 3 | [RuLX3]+ 0 |
|
[RuL2X3]+ 0 |
|
[RuL3X3]+ 1% |
|
[RuL4X3]+ 14% |
| X+2Z = 4 | |
[RuLX4]+ 0 |
|
[RuL2X4]+ 0 |
|
[RuL3X4]+ 1% |
|
| X+2Z = 5 | [RuX5]+ 0 |
|
[RuLX5]+ 0 |
|
[RuL2X5]+ 1% |
|
[RuL3X5]+ 3% |
| X+2Z = 6 | |
[RuX6]+ 0 |
|
[RuLX6]+ 0 |
|
[RuL2X6]+ 0 |
|
| X+2Z = 7 | [RuX5Z]+ 0 |
|
[RuX7]+ 0 |
|
[RuLX7]+ 0 |
|
[RuL2X7]+ 0 |
| X+2Z = 8 | |
[RuX6Z]+ 0 |
|
[RuX8]+ 0 |
|
[RuLX8]+ 0 |
|
| X+2Z = 9 | [RuX5Z2]+ 0 |
|
[RuX7Z]+ 0 |
|
[RuX9]+ 0 |
|
[RuLX9]+ 0 |
| X+2Z = 10 | |
[RuX6Z2]+ 0 |
|
[RuX8Z]+ 0 |
|
[RuX10]+ 0 |
|
| X+2Z = 11 | [RuX5Z3]+ 0 |
|
[RuX7Z2]+ 0 |
|
[RuX9Z]+ 0 |
|
[RuX11]+ 0 |
| X+2Z = 12 | |
[RuX6Z3]+ 0 |
|
[RuX8Z2]+ 0 |
|
[RuX10Z]+ 0 |
|
MLXZq± grid for ruthenium (Ru) for Q = 2: [RuXxLlZz]2+
The number of compounds found is 55.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of ruthenium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [RuL3]2+ 0 |
|
[RuL4]2+ 0 |
|
[RuL5]2+ 2% |
|
[RuL6]2+ 69% |
| X+2Z = 1 | |
[RuL3X]2+ 0 |
|
[RuL4X]2+ 0 |
|
[RuL5X]2+ 2% |
|
| X+2Z = 2 | [RuL2X2]2+ 0 |
|
[RuL3X2]2+ 0 |
|
[RuL4X2]2+ 0 |
|
[RuL5X2]2+ 5% |
| X+2Z = 3 | |
[RuL2X3]2+ 0 |
|
[RuL3X3]2+ 0 |
|
[RuL4X3]2+ 0 |
|
| X+2Z = 4 | [RuLX4]2+ 0 |
|
[RuL2X4]2+ 0 |
|
[RuL3X4]2+ 0 |
|
[RuL4X4]2+ 22% |
| X+2Z = 5 | |
[RuLX5]2+ 0 |
|
[RuL2X5]2+ 0 |
|
[RuL3X5]2+ 0 |
|
| X+2Z = 6 | [RuX6]2+ 0 |
|
[RuLX6]2+ 0 |
|
[RuL2X6]2+ 0 |
|
[RuL3X6]2+ 0 |
| X+2Z = 7 | |
[RuX7]2+ 0 |
|
[RuLX7]2+ 0 |
|
[RuL2X7]2+ 0 |
|
| X+2Z = 8 | [RuX6Z]2+ 0 |
|
[RuX8]2+ 0 |
|
[RuLX8]2+ 0 |
|
[RuL2X8]2+ 0 |
| X+2Z = 9 | |
[RuX7Z]2+ 0 |
|
[RuX9]2+ 0 |
|
[RuLX9]2+ 0 |
|
| X+2Z = 10 | [RuX6Z2]2+ 0 |
|
[RuX8Z]2+ 0 |
|
[RuX10]2+ 0 |
|
[RuLX10]2+ 0 |
| X+2Z = 11 | |
[RuX7Z2]2+ 0 |
|
[RuX9Z]2+ 0 |
|
[RuX11]2+ 0 |
|
| X+2Z = 12 | [RuX6Z3]2+ 0 |
|
[RuX8Z2]2+ 0 |
|
[RuX10Z]2+ 0 |
|
[RuX12]2+ 0 |
MLXZq± grid for ruthenium (Ru) for Q = 3: [RuXxLlZz]3+
The number of compounds found is 7.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of ruthenium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[RuL4]3+ 0 |
|
[RuL5]3+ 0 |
|
[RuL6]3+ 86% |
|
| X+2Z = 1 | [RuL3X]3+ 0 |
|
[RuL4X]3+ 0 |
|
[RuL5X]3+ 0 |
|
[RuL6X]3+ 0 |
| X+2Z = 2 | |
[RuL3X2]3+ 0 |
|
[RuL4X2]3+ 0 |
|
[RuL5X2]3+ 0 |
|
| X+2Z = 3 | [RuL2X3]3+ 0 |
|
[RuL3X3]3+ 0 |
|
[RuL4X3]3+ 0 |
|
[RuL5X3]3+ 14% |
| X+2Z = 4 | |
[RuL2X4]3+ 0 |
|
[RuL3X4]3+ 0 |
|
[RuL4X4]3+ 0 |
|
| X+2Z = 5 | [RuLX5]3+ 0 |
|
[RuL2X5]3+ 0 |
|
[RuL3X5]3+ 0 |
|
[RuL4X5]3+ 0 |
| X+2Z = 6 | |
[RuLX6]3+ 0 |
|
[RuL2X6]3+ 0 |
|
[RuL3X6]3+ 0 |
|
| X+2Z = 7 | [RuX7]3+ 0 |
|
[RuLX7]3+ 0 |
|
[RuL2X7]3+ 0 |
|
[RuL3X7]3+ 0 |
| X+2Z = 8 | |
[RuX8]3+ 0 |
|
[RuLX8]3+ 0 |
|
[RuL2X8]3+ 0 |
|
| X+2Z = 9 | [RuX7Z]3+ 0 |
|
[RuX9]3+ 0 |
|
[RuLX9]3+ 0 |
|
[RuL2X9]3+ 0 |
| X+2Z = 10 | |
[RuX8Z]3+ 0 |
|
[RuX10]3+ 0 |
|
[RuLX10]3+ 0 |
|
| X+2Z = 11 | [RuX7Z2]3+ 0 |
|
[RuX9Z]3+ 0 |
|
[RuX11]3+ 0 |
|
[RuLX11]3+ 0 |
| X+2Z = 12 | |
[RuX8Z2]3+ 0 |
|
[RuX10Z]3+ 0 |
|
[RuX12]3+ 0 |
|
MLXZq± grid for ruthenium (Ru) for Q = 4: [RuXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for rhodium (Rh) for Q = -6: [RhXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for rhodium (Rh) for Q = -5: [RhXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for rhodium (Rh) for Q = -4: [RhXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for rhodium (Rh) for Q = -3: [RhXxLlZz]3-
The number of compounds found is 9.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of rhodium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Rh]3- 0 |
|
[RhL]3- 0 |
|
[RhL2]3- 0 |
|
[RhL3]3- 0 |
|
| X+2Z = 1 | |
[RhX]3- 0 |
|
[RhLX]3- 0 |
|
[RhL2X]3- 0 |
|
[RhL3X]3- 0 |
| X+2Z = 2 | [RhZ]3- 0 |
|
[RhX2]3- 0 |
|
[RhLX2]3- 0 |
|
[RhL2X2]3- 0 |
|
| X+2Z = 3 | |
[RhXZ]3- 0 |
|
[RhX3]3- 0 |
|
[RhLX3]3- 0 |
|
[RhL2X3]3- 0 |
| X+2Z = 4 | [RhZ2]3- 0 |
|
[RhX2Z]3- 0 |
|
[RhX4]3- 0 |
|
[RhLX4]3- 0 |
|
| X+2Z = 5 | |
[RhXZ2]3- 0 |
|
[RhX3Z]3- 0 |
|
[RhX5]3- 0 |
|
[RhLX5]3- 0 |
| X+2Z = 6 | [RhZ3]3- 0 |
|
[RhX2Z2]3- 0 |
|
[RhX4Z]3- 0 |
|
[RhX6]3- 100% |
|
| X+2Z = 7 | |
[RhXZ3]3- 0 |
|
[RhX3Z2]3- 0 |
|
[RhX5Z]3- 0 |
|
[RhX7]3- 0 |
| X+2Z = 8 | [RhZ4]3- 0 |
|
[RhX2Z3]3- 0 |
|
[RhX4Z2]3- 0 |
|
[RhX6Z]3- 0 |
|
| X+2Z = 9 | |
[RhXZ4]3- 0 |
|
[RhX3Z3]3- 0 |
|
[RhX5Z2]3- 0 |
|
[RhX7Z]3- 0 |
| X+2Z = 10 | [RhZ5]3- 0 |
|
[RhX2Z4]3- 0 |
|
[RhX4Z3]3- 0 |
|
[RhX6Z2]3- 0 |
|
| X+2Z = 11 | |
[RhXZ5]3- 0 |
|
[RhX3Z4]3- 0 |
|
[RhX5Z3]3- 0 |
|
[RhX7Z2]3- 0 |
| X+2Z = 12 | [RhZ6]3- 0 |
|
[RhX2Z5]3- 0 |
|
[RhX4Z4]3- 0 |
|
[RhX6Z3]3- 0 |
|
MLXZq± grid for rhodium (Rh) for Q = -2: [RhXxLlZz]2-
The number of compounds found is 4.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of rhodium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[RhL]2- 0 |
|
[RhL2]2- 0 |
|
[RhL3]2- 0 |
|
[RhL4]2- 0 |
| X+2Z = 1 | [RhX]2- 0 |
|
[RhLX]2- 0 |
|
[RhL2X]2- 0 |
|
[RhL3X]2- 0 |
|
| X+2Z = 2 | |
[RhX2]2- 0 |
|
[RhLX2]2- 0 |
|
[RhL2X2]2- 0 |
|
[RhL3X2]2- 0 |
| X+2Z = 3 | [RhXZ]2- 0 |
|
[RhX3]2- 0 |
|
[RhLX3]2- 0 |
|
[RhL2X3]2- 0 |
|
| X+2Z = 4 | |
[RhX2Z]2- 0 |
|
[RhX4]2- 0 |
|
[RhLX4]2- 0 |
|
[RhL2X4]2- 0 |
| X+2Z = 5 | [RhXZ2]2- 0 |
|
[RhX3Z]2- 0 |
|
[RhX5]2- 25% |
|
[RhLX5]2- 25% |
|
| X+2Z = 6 | |
[RhX2Z2]2- 0 |
|
[RhX4Z]2- 0 |
|
[RhX6]2- 50% |
|
[RhLX6]2- 0 |
| X+2Z = 7 | [RhXZ3]2- 0 |
|
[RhX3Z2]2- 0 |
|
[RhX5Z]2- 0 |
|
[RhX7]2- 0 |
|
| X+2Z = 8 | |
[RhX2Z3]2- 0 |
|
[RhX4Z2]2- 0 |
|
[RhX6Z]2- 0 |
|
[RhX8]2- 0 |
| X+2Z = 9 | [RhXZ4]2- 0 |
|
[RhX3Z3]2- 0 |
|
[RhX5Z2]2- 0 |
|
[RhX7Z]2- 0 |
|
| X+2Z = 10 | |
[RhX2Z4]2- 0 |
|
[RhX4Z3]2- 0 |
|
[RhX6Z2]2- 0 |
|
[RhX8Z]2- 0 |
| X+2Z = 11 | [RhXZ5]2- 0 |
|
[RhX3Z4]2- 0 |
|
[RhX5Z3]2- 0 |
|
[RhX7Z2]2- 0 |
|
| X+2Z = 12 | |
[RhX2Z5]2- 0 |
|
[RhX4Z4]2- 0 |
|
[RhX6Z3]2- 0 |
|
[RhX8Z2]2- 0 |
MLXZq± grid for rhodium (Rh) for Q = -1: [RhXxLlZz]-
The number of compounds found is 20.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of rhodium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [RhL]- 0 |
|
[RhL2]- 0 |
|
[RhL3]- 0 |
|
[RhL4]- 0 |
|
| X+2Z = 1 | |
[RhLX]- 0 |
|
[RhL2X]- 0 |
|
[RhL3X]- 0 |
|
[RhL4X]- 0 |
| X+2Z = 2 | [RhX2]- 0 |
|
[RhLX2]- 0 |
|
[RhL2X2]- 35% |
|
[RhL3X2]- 5% |
|
| X+2Z = 3 | |
[RhX3]- 0 |
|
[RhLX3]- 0 |
|
[RhL2X3]- 0 |
|
[RhL3X3]- 0 |
| X+2Z = 4 | [RhX2Z]- 0 |
|
[RhX4]- 0 |
|
[RhLX4]- 0 |
|
[RhL2X4]- 50% |
|
| X+2Z = 5 | |
[RhX3Z]- 0 |
|
[RhX5]- 0 |
|
[RhLX5]- 0 |
|
[RhL2X5]- 0 |
| X+2Z = 6 | [RhX2Z2]- 0 |
|
[RhX4Z]- 0 |
|
[RhX6]- 5% |
|
[RhLX6]- 5% |
|
| X+2Z = 7 | |
[RhX3Z2]- 0 |
|
[RhX5Z]- 0 |
|
[RhX7]- 0 |
|
[RhLX7]- 0 |
| X+2Z = 8 | [RhX2Z3]- 0 |
|
[RhX4Z2]- 0 |
|
[RhX6Z]- 0 |
|
[RhX8]- 0 |
|
| X+2Z = 9 | |
[RhX3Z3]- 0 |
|
[RhX5Z2]- 0 |
|
[RhX7Z]- 0 |
|
[RhX9]- 0 |
| X+2Z = 10 | [RhX2Z4]- 0 |
|
[RhX4Z3]- 0 |
|
[RhX6Z2]- 0 |
|
[RhX8Z]- 0 |
|
| X+2Z = 11 | |
[RhX3Z4]- 0 |
|
[RhX5Z3]- 0 |
|
[RhX7Z2]- 0 |
|
[RhX9Z]- 0 |
| X+2Z = 12 | [RhX2Z5]- 0 |
|
[RhX4Z4]- 0 |
|
[RhX6Z3]- 0 |
|
[RhX8Z2]- 0 |
|
MLXZq± grid for rhodium (Rh) for Q = 0: [RhXxLlZz]
The number of compounds found is 351.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of rhodium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[RhL2] 0 |
|
[RhL3] 0 |
|
[RhL4] 0 |
|
[RhL5] 0 |
| X+2Z = 1 | [RhLX] 0 |
|
[RhL2X] 0 |
|
[RhL3X] 31% |
|
[RhL4X] 12% |
|
| X+2Z = 2 | |
[RhLX2] 0 |
|
[RhL2X2] 1% |
|
[RhL3X2] 0.3% |
|
[RhL4X2] 0.3% |
| X+2Z = 3 | [RhX3] 0.3% |
|
[RhLX3] 0.3% |
|
[RhL2X3] 9% |
|
[RhL3X3] 43% |
|
| X+2Z = 4 | |
[RhX4] 0 |
|
[RhLX4] 0 |
|
[RhL2X4] 1% |
|
[RhL3X4] 0 |
| X+2Z = 5 | [RhX3Z] 0 |
|
[RhX5] 0 |
|
[RhLX5] 0.3% |
|
[RhL2X5] 2% |
|
| X+2Z = 6 | |
[RhX4Z] 0 |
|
[RhX6] 0 |
|
[RhLX6] 0 |
|
[RhL2X6] 0 |
| X+2Z = 7 | [RhX3Z2] 0 |
|
[RhX5Z] 0 |
|
[RhX7] 0 |
|
[RhLX7] 0 |
|
| X+2Z = 8 | |
[RhX4Z2] 0 |
|
[RhX6Z] 0 |
|
[RhX8] 0 |
|
[RhLX8] 0 |
| X+2Z = 9 | [RhX3Z3] 0 |
|
[RhX5Z2] 0 |
|
[RhX7Z] 0 |
|
[RhX9] 0 |
|
| X+2Z = 10 | |
[RhX4Z3] 0 |
|
[RhX6Z2] 0 |
|
[RhX8Z] 0 |
|
[RhX10] 0 |
| X+2Z = 11 | [RhX3Z4] 0 |
|
[RhX5Z3] 0 |
|
[RhX7Z2] 0 |
|
[RhX9Z] 0 |
|
| X+2Z = 12 | |
[RhX4Z4] 0 |
|
[RhX6Z3] 0 |
|
[RhX8Z2] 0 |
|
[RhX10Z] 0 |
MLXZq± grid for rhodium (Rh) for Q = 1: [RhXxLlZz]+
The number of compounds found is 92.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of rhodium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [RhL2]+ 0 |
|
[RhL3]+ 0 |
|
[RhL4]+ 34% |
|
[RhL5]+ 15% |
|
| X+2Z = 1 | |
[RhL2X]+ 0 |
|
[RhL3X]+ 1% |
|
[RhL4X]+ 1% |
|
[RhL5X]+ 0 |
| X+2Z = 2 | [RhLX2]+ 0 |
|
[RhL2X2]+ 1% |
|
[RhL3X2]+ 1% |
|
[RhL4X2]+ 45% |
|
| X+2Z = 3 | |
[RhLX3]+ 0 |
|
[RhL2X3]+ 0 |
|
[RhL3X3]+ 1% |
|
[RhL4X3]+ 0 |
| X+2Z = 4 | [RhX4]+ 0 |
|
[RhLX4]+ 0 |
|
[RhL2X4]+ 0 |
|
[RhL3X4]+ 1% |
|
| X+2Z = 5 | |
[RhX5]+ 0 |
|
[RhLX5]+ 0 |
|
[RhL2X5]+ 0 |
|
[RhL3X5]+ 0 |
| X+2Z = 6 | [RhX4Z]+ 0 |
|
[RhX6]+ 0 |
|
[RhLX6]+ 0 |
|
[RhL2X6]+ 0 |
|
| X+2Z = 7 | |
[RhX5Z]+ 0 |
|
[RhX7]+ 0 |
|
[RhLX7]+ 0 |
|
[RhL2X7]+ 0 |
| X+2Z = 8 | [RhX4Z2]+ 0 |
|
[RhX6Z]+ 0 |
|
[RhX8]+ 0 |
|
[RhLX8]+ 0 |
|
| X+2Z = 9 | |
[RhX5Z2]+ 0 |
|
[RhX7Z]+ 0 |
|
[RhX9]+ 0 |
|
[RhLX9]+ 0 |
| X+2Z = 10 | [RhX4Z3]+ 0 |
|
[RhX6Z2]+ 0 |
|
[RhX8Z]+ 0 |
|
[RhX10]+ 0 |
|
| X+2Z = 11 | |
[RhX5Z3]+ 0 |
|
[RhX7Z2]+ 0 |
|
[RhX9Z]+ 0 |
|
[RhX11]+ 0 |
| X+2Z = 12 | [RhX4Z4]+ 0 |
|
[RhX6Z3]+ 0 |
|
[RhX8Z2]+ 0 |
|
[RhX10Z]+ 0 |
|
MLXZq± grid for rhodium (Rh) for Q = 2: [RhXxLlZz]2+
The number of compounds found is 25.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of rhodium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[RhL3]2+ 0 |
|
[RhL4]2+ 0 |
|
[RhL5]2+ 0 |
|
[RhL6]2+ 0 |
| X+2Z = 1 | [RhL2X]2+ 0 |
|
[RhL3X]2+ 0 |
|
[RhL4X]2+ 4% |
|
[RhL5X]2+ 92% |
|
| X+2Z = 2 | |
[RhL2X2]2+ 0 |
|
[RhL3X2]2+ 0 |
|
[RhL4X2]2+ 4% |
|
[RhL5X2]2+ 0 |
| X+2Z = 3 | [RhLX3]2+ 0 |
|
[RhL2X3]2+ 0 |
|
[RhL3X3]2+ 0 |
|
[RhL4X3]2+ 0 |
|
| X+2Z = 4 | |
[RhLX4]2+ 0 |
|
[RhL2X4]2+ 0 |
|
[RhL3X4]2+ 0 |
|
[RhL4X4]2+ 0 |
| X+2Z = 5 | [RhX5]2+ 0 |
|
[RhLX5]2+ 0 |
|
[RhL2X5]2+ 0 |
|
[RhL3X5]2+ 0 |
|
| X+2Z = 6 | |
[RhX6]2+ 0 |
|
[RhLX6]2+ 0 |
|
[RhL2X6]2+ 0 |
|
[RhL3X6]2+ 0 |
| X+2Z = 7 | [RhX5Z]2+ 0 |
|
[RhX7]2+ 0 |
|
[RhLX7]2+ 0 |
|
[RhL2X7]2+ 0 |
|
| X+2Z = 8 | |
[RhX6Z]2+ 0 |
|
[RhX8]2+ 0 |
|
[RhLX8]2+ 0 |
|
[RhL2X8]2+ 0 |
| X+2Z = 9 | [RhX5Z2]2+ 0 |
|
[RhX7Z]2+ 0 |
|
[RhX9]2+ 0 |
|
[RhLX9]2+ 0 |
|
| X+2Z = 10 | |
[RhX6Z2]2+ 0 |
|
[RhX8Z]2+ 0 |
|
[RhX10]2+ 0 |
|
[RhLX10]2+ 0 |
| X+2Z = 11 | [RhX5Z3]2+ 0 |
|
[RhX7Z2]2+ 0 |
|
[RhX9Z]2+ 0 |
|
[RhX11]2+ 0 |
|
| X+2Z = 12 | |
[RhX6Z3]2+ 0 |
|
[RhX8Z2]2+ 0 |
|
[RhX10Z]2+ 0 |
|
[RhX12]2+ 0 |
MLXZq± grid for rhodium (Rh) for Q = 3: [RhXxLlZz]3+
The number of compounds found is 8.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of rhodium with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [RhL3]3+ 0 |
|
[RhL4]3+ 0 |
|
[RhL5]3+ 0 |
|
[RhL6]3+ 100% |
|
| X+2Z = 1 | |
[RhL3X]3+ 0 |
|
[RhL4X]3+ 0 |
|
[RhL5X]3+ 0 |
|
[RhL6X]3+ 0 |
| X+2Z = 2 | [RhL2X2]3+ 0 |
|
[RhL3X2]3+ 0 |
|
[RhL4X2]3+ 0 |
|
[RhL5X2]3+ 0 |
|
| X+2Z = 3 | |
[RhL2X3]3+ 0 |
|
[RhL3X3]3+ 0 |
|
[RhL4X3]3+ 0 |
|
[RhL5X3]3+ 0 |
| X+2Z = 4 | [RhLX4]3+ 0 |
|
[RhL2X4]3+ 0 |
|
[RhL3X4]3+ 0 |
|
[RhL4X4]3+ 0 |
|
| X+2Z = 5 | |
[RhLX5]3+ 0 |
|
[RhL2X5]3+ 0 |
|
[RhL3X5]3+ 0 |
|
[RhL4X5]3+ 0 |
| X+2Z = 6 | [RhX6]3+ 0 |
|
[RhLX6]3+ 0 |
|
[RhL2X6]3+ 0 |
|
[RhL3X6]3+ 0 |
|
| X+2Z = 7 | |
[RhX7]3+ 0 |
|
[RhLX7]3+ 0 |
|
[RhL2X7]3+ 0 |
|
[RhL3X7]3+ 0 |
| X+2Z = 8 | [RhX6Z]3+ 0 |
|
[RhX8]3+ 0 |
|
[RhLX8]3+ 0 |
|
[RhL2X8]3+ 0 |
|
| X+2Z = 9 | |
[RhX7Z]3+ 0 |
|
[RhX9]3+ 0 |
|
[RhLX9]3+ 0 |
|
[RhL2X9]3+ 0 |
| X+2Z = 10 | [RhX6Z2]3+ 0 |
|
[RhX8Z]3+ 0 |
|
[RhX10]3+ 0 |
|
[RhLX10]3+ 0 |
|
| X+2Z = 11 | |
[RhX7Z2]3+ 0 |
|
[RhX9Z]3+ 0 |
|
[RhX11]3+ 0 |
|
[RhLX11]3+ 0 |
| X+2Z = 12 | [RhX6Z3]3+ 0 |
|
[RhX8Z2]3+ 0 |
|
[RhX10Z]3+ 0 |
|
[RhX12]3+ 0 |
|
MLXZq± grid for rhodium (Rh) for Q = 4: [RhXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for palladium (Pd) for Q = -6: [PdXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for palladium (Pd) for Q = -5: [PdXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for palladium (Pd) for Q = -4: [PdXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for palladium (Pd) for Q = -3: [PdXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for palladium (Pd) for Q = -2: [PdXxLlZz]2-
The number of compounds found is 22.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of palladium with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [PdL]2- 0 |
|
[PdL2]2- 0 |
|
[PdL3]2- 0 |
|
[PdL4]2- 0 |
| X+2Z = 1 | |
[PdLX]2- 0 |
|
[PdL2X]2- 0 |
|
[PdL3X]2- 0 |
|
| X+2Z = 2 | [PdX2]2- 0 |
|
[PdLX2]2- 0 |
|
[PdL2X2]2- 0 |
|
[PdL3X2]2- 0 |
| X+2Z = 3 | |
[PdX3]2- 0 |
|
[PdLX3]2- 0 |
|
[PdL2X3]2- 0 |
|
| X+2Z = 4 | [PdX2Z]2- 0 |
|
[PdX4]2- 86% |
|
[PdLX4]2- 0 |
|
[PdL2X4]2- 0 |
| X+2Z = 5 | |
[PdX3Z]2- 0 |
|
[PdX5]2- 0 |
|
[PdLX5]2- 0 |
|
| X+2Z = 6 | [PdX2Z2]2- 0 |
|
[PdX4Z]2- 0 |
|
[PdX6]2- 14% |
|
[PdLX6]2- 0 |
| X+2Z = 7 | |
[PdX3Z2]2- 0 |
|
[PdX5Z]2- 0 |
|
[PdX7]2- 0 |
|
| X+2Z = 8 | [PdX2Z3]2- 0 |
|
[PdX4Z2]2- 0 |
|
[PdX6Z]2- 0 |
|
[PdX8]2- 0 |
| X+2Z = 9 | |
[PdX3Z3]2- 0 |
|
[PdX5Z2]2- 0 |
|
[PdX7Z]2- 0 |
|
| X+2Z = 10 | [PdX2Z4]2- 0 |
|
[PdX4Z3]2- 0 |
|
[PdX6Z2]2- 0 |
|
[PdX8Z]2- 0 |
| X+2Z = 11 | |
[PdX3Z4]2- 0 |
|
[PdX5Z3]2- 0 |
|
[PdX7Z2]2- 0 |
|
| X+2Z = 12 | [PdX2Z5]2- 0 |
|
[PdX4Z4]2- 0 |
|
[PdX6Z3]2- 0 |
|
[PdX8Z2]2- 0 |
MLXZq± grid for palladium (Pd) for Q = -1: [PdXxLlZz]-
The number of compounds found is 22.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of palladium with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[PdL2]- 0 |
|
[PdL3]- 0 |
|
[PdL4]- 0 |
|
| X+2Z = 1 | [PdLX]- 0 |
|
[PdL2X]- 0 |
|
[PdL3X]- 0 |
|
[PdL4X]- 0 |
| X+2Z = 2 | |
[PdLX2]- 0 |
|
[PdL2X2]- 0 |
|
[PdL3X2]- 0 |
|
| X+2Z = 3 | [PdX3]- 5% |
|
[PdLX3]- 91% |
|
[PdL2X3]- 0 |
|
[PdL3X3]- 5% |
| X+2Z = 4 | |
[PdX4]- 0 |
|
[PdLX4]- 0 |
|
[PdL2X4]- 0 |
|
| X+2Z = 5 | [PdX3Z]- 0 |
|
[PdX5]- 0 |
|
[PdLX5]- 0 |
|
[PdL2X5]- 0 |
| X+2Z = 6 | |
[PdX4Z]- 0 |
|
[PdX6]- 0 |
|
[PdLX6]- 0 |
|
| X+2Z = 7 | [PdX3Z2]- 0 |
|
[PdX5Z]- 0 |
|
[PdX7]- 0 |
|
[PdLX7]- 0 |
| X+2Z = 8 | |
[PdX4Z2]- 0 |
|
[PdX6Z]- 0 |
|
[PdX8]- 0 |
|
| X+2Z = 9 | [PdX3Z3]- 0 |
|
[PdX5Z2]- 0 |
|
[PdX7Z]- 0 |
|
[PdX9]- 0 |
| X+2Z = 10 | |
[PdX4Z3]- 0 |
|
[PdX6Z2]- 0 |
|
[PdX8Z]- 0 |
|
| X+2Z = 11 | [PdX3Z4]- 0 |
|
[PdX5Z3]- 0 |
|
[PdX7Z2]- 0 |
|
[PdX9Z]- 0 |
| X+2Z = 12 | |
[PdX4Z4]- 0 |
|
[PdX6Z3]- 0 |
|
[PdX8Z2]- 0 |
|
MLXZq± grid for palladium (Pd) for Q = 0: [PdXxLlZz]
The number of compounds found is 392.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of palladium with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [PdL2] 1% |
|
[PdL3] 2% |
|
[PdL4] 2% |
|
[PdL5] 0 |
| X+2Z = 1 | |
[PdL2X] 0 |
|
[PdL3X] 0.3% |
|
[PdL4X] 0 |
|
| X+2Z = 2 | [PdLX2] 2% |
|
[PdL2X2] 87% |
|
[PdL3X2] 2% |
|
[PdL4X2] 1% |
| X+2Z = 3 | |
[PdLX3] 0 |
|
[PdL2X3] 0.3% |
|
[PdL3X3] 0.3% |
|
| X+2Z = 4 | [PdX4] 0 |
|
[PdLX4] 0 |
|
[PdL2X4] 3% |
|
[PdL3X4] 0 |
| X+2Z = 5 | |
[PdX5] 0.3% |
|
[PdLX5] 0 |
|
[PdL2X5] 0 |
|
| X+2Z = 6 | [PdX4Z] 0 |
|
[PdX6] 0 |
|
[PdLX6] 0 |
|
[PdL2X6] 0 |
| X+2Z = 7 | |
[PdX5Z] 0 |
|
[PdX7] 0 |
|
[PdLX7] 0 |
|
| X+2Z = 8 | [PdX4Z2] 0 |
|
[PdX6Z] 0 |
|
[PdX8] 0 |
|
[PdLX8] 0 |
| X+2Z = 9 | |
[PdX5Z2] 0 |
|
[PdX7Z] 0 |
|
[PdX9] 0 |
|
| X+2Z = 10 | [PdX4Z3] 0 |
|
[PdX6Z2] 0 |
|
[PdX8Z] 0 |
|
[PdX10] 0 |
| X+2Z = 11 | |
[PdX5Z3] 0 |
|
[PdX7Z2] 0 |
|
[PdX9Z] 0 |
|
| X+2Z = 12 | [PdX4Z4] 0 |
|
[PdX6Z3] 0 |
|
[PdX8Z2] 0 |
|
[PdX10Z] 0 |
MLXZq± grid for palladium (Pd) for Q = 1: [PdXxLlZz]+
The number of compounds found is 46.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of palladium with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[PdL3]+ 0 |
|
[PdL4]+ 0 |
|
[PdL5]+ 0 |
|
| X+2Z = 1 | [PdL2X]+ 4% |
|
[PdL3X]+ 76% |
|
[PdL4X]+ 7% |
|
[PdL5X]+ 0 |
| X+2Z = 2 | |
[PdL2X2]+ 0 |
|
[PdL3X2]+ 0 |
|
[PdL4X2]+ 0 |
|
| X+2Z = 3 | [PdLX3]+ 0 |
|
[PdL2X3]+ 2% |
|
[PdL3X3]+ 11% |
|
[PdL4X3]+ 0 |
| X+2Z = 4 | |
[PdLX4]+ 0 |
|
[PdL2X4]+ 0 |
|
[PdL3X4]+ 0 |
|
| X+2Z = 5 | [PdX5]+ 0 |
|
[PdLX5]+ 0 |
|
[PdL2X5]+ 0 |
|
[PdL3X5]+ 0 |
| X+2Z = 6 | |
[PdX6]+ 0 |
|
[PdLX6]+ 0 |
|
[PdL2X6]+ 0 |
|
| X+2Z = 7 | [PdX5Z]+ 0 |
|
[PdX7]+ 0 |
|
[PdLX7]+ 0 |
|
[PdL2X7]+ 0 |
| X+2Z = 8 | |
[PdX6Z]+ 0 |
|
[PdX8]+ 0 |
|
[PdLX8]+ 0 |
|
| X+2Z = 9 | [PdX5Z2]+ 0 |
|
[PdX7Z]+ 0 |
|
[PdX9]+ 0 |
|
[PdLX9]+ 0 |
| X+2Z = 10 | |
[PdX6Z2]+ 0 |
|
[PdX8Z]+ 0 |
|
[PdX10]+ 0 |
|
| X+2Z = 11 | [PdX5Z3]+ 0 |
|
[PdX7Z2]+ 0 |
|
[PdX9Z]+ 0 |
|
[PdX11]+ 0 |
| X+2Z = 12 | |
[PdX6Z3]+ 0 |
|
[PdX8Z2]+ 0 |
|
[PdX10Z]+ 0 |
|
MLXZq± grid for palladium (Pd) for Q = 2: [PdXxLlZz]2+
The number of compounds found is 39.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of palladium with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [PdL3]2+ 0 |
|
[PdL4]2+ 97% |
|
[PdL5]2+ 3% |
|
[PdL6]2+ 0 |
| X+2Z = 1 | |
[PdL3X]2+ 0 |
|
[PdL4X]2+ 0 |
|
[PdL5X]2+ 0 |
|
| X+2Z = 2 | [PdL2X2]2+ 0 |
|
[PdL3X2]2+ 0 |
|
[PdL4X2]2+ 0 |
|
[PdL5X2]2+ 0 |
| X+2Z = 3 | |
[PdL2X3]2+ 0 |
|
[PdL3X3]2+ 0 |
|
[PdL4X3]2+ 0 |
|
| X+2Z = 4 | [PdLX4]2+ 0 |
|
[PdL2X4]2+ 0 |
|
[PdL3X4]2+ 0 |
|
[PdL4X4]2+ 0 |
| X+2Z = 5 | |
[PdLX5]2+ 0 |
|
[PdL2X5]2+ 0 |
|
[PdL3X5]2+ 0 |
|
| X+2Z = 6 | [PdX6]2+ 0 |
|
[PdLX6]2+ 0 |
|
[PdL2X6]2+ 0 |
|
[PdL3X6]2+ 0 |
| X+2Z = 7 | |
[PdX7]2+ 0 |
|
[PdLX7]2+ 0 |
|
[PdL2X7]2+ 0 |
|
| X+2Z = 8 | [PdX6Z]2+ 0 |
|
[PdX8]2+ 0 |
|
[PdLX8]2+ 0 |
|
[PdL2X8]2+ 0 |
| X+2Z = 9 | |
[PdX7Z]2+ 0 |
|
[PdX9]2+ 0 |
|
[PdLX9]2+ 0 |
|
| X+2Z = 10 | [PdX6Z2]2+ 0 |
|
[PdX8Z]2+ 0 |
|
[PdX10]2+ 0 |
|
[PdLX10]2+ 0 |
| X+2Z = 11 | |
[PdX7Z2]2+ 0 |
|
[PdX9Z]2+ 0 |
|
[PdX11]2+ 0 |
|
| X+2Z = 12 | [PdX6Z3]2+ 0 |
|
[PdX8Z2]2+ 0 |
|
[PdX10Z]2+ 0 |
|
[PdX12]2+ 0 |
MLXZq± grid for palladium (Pd) for Q = 3: [PdXxLlZz]3+
The number of compounds found is 3.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of palladium with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[PdL4]3+ 0 |
|
[PdL5]3+ 0 |
|
[PdL6]3+ 100% |
|
| X+2Z = 1 | [PdL3X]3+ 0 |
|
[PdL4X]3+ 0 |
|
[PdL5X]3+ 0 |
|
[PdL6X]3+ 0 |
| X+2Z = 2 | |
[PdL3X2]3+ 0 |
|
[PdL4X2]3+ 0 |
|
[PdL5X2]3+ 0 |
|
| X+2Z = 3 | [PdL2X3]3+ 0 |
|
[PdL3X3]3+ 0 |
|
[PdL4X3]3+ 0 |
|
[PdL5X3]3+ 0 |
| X+2Z = 4 | |
[PdL2X4]3+ 0 |
|
[PdL3X4]3+ 0 |
|
[PdL4X4]3+ 0 |
|
| X+2Z = 5 | [PdLX5]3+ 0 |
|
[PdL2X5]3+ 0 |
|
[PdL3X5]3+ 0 |
|
[PdL4X5]3+ 0 |
| X+2Z = 6 | |
[PdLX6]3+ 0 |
|
[PdL2X6]3+ 0 |
|
[PdL3X6]3+ 0 |
|
| X+2Z = 7 | [PdX7]3+ 0 |
|
[PdLX7]3+ 0 |
|
[PdL2X7]3+ 0 |
|
[PdL3X7]3+ 0 |
| X+2Z = 8 | |
[PdX8]3+ 0 |
|
[PdLX8]3+ 0 |
|
[PdL2X8]3+ 0 |
|
| X+2Z = 9 | [PdX7Z]3+ 0 |
|
[PdX9]3+ 0 |
|
[PdLX9]3+ 0 |
|
[PdL2X9]3+ 0 |
| X+2Z = 10 | |
[PdX8Z]3+ 0 |
|
[PdX10]3+ 0 |
|
[PdLX10]3+ 0 |
|
| X+2Z = 11 | [PdX7Z2]3+ 0 |
|
[PdX9Z]3+ 0 |
|
[PdX11]3+ 0 |
|
[PdLX11]3+ 0 |
| X+2Z = 12 | |
[PdX8Z2]3+ 0 |
|
[PdX10Z]3+ 0 |
|
[PdX12]3+ 0 |
|
MLXZq± grid for palladium (Pd) for Q = 4: [PdXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for silver (Ag) for Q = -6: [AgXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for silver (Ag) for Q = -5: [AgXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for silver (Ag) for Q = -4: [AgXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for silver (Ag) for Q = -3: [AgXxLlZz]3-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of silver with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Ag]3- 0 |
|
[AgL]3- 0 |
|
[AgL2]3- 0 |
|
[AgL3]3- 0 |
|
[AgL4]3- 0 |
| X+2Z = 1 | |
[AgX]3- 0 |
|
[AgLX]3- 0 |
|
[AgL2X]3- 0 |
|
[AgL3X]3- 0 |
|
| X+2Z = 2 | [AgZ]3- 0 |
|
[AgX2]3- 0 |
|
[AgLX2]3- 0 |
|
[AgL2X2]3- 0 |
|
[AgL3X2]3- 0 |
| X+2Z = 3 | |
[AgXZ]3- 0 |
|
[AgX3]3- 0 |
|
[AgLX3]3- 0 |
|
[AgL2X3]3- 0 |
|
| X+2Z = 4 | [AgZ2]3- 0 |
|
[AgX2Z]3- 0 |
|
[AgX4]3- 100% |
|
[AgLX4]3- 0 |
|
[AgL2X4]3- 0 |
| X+2Z = 5 | |
[AgXZ2]3- 0 |
|
[AgX3Z]3- 0 |
|
[AgX5]3- 0 |
|
[AgLX5]3- 0 |
|
| X+2Z = 6 | [AgZ3]3- 0 |
|
[AgX2Z2]3- 0 |
|
[AgX4Z]3- 0 |
|
[AgX6]3- 0 |
|
[AgLX6]3- 0 |
| X+2Z = 7 | |
[AgXZ3]3- 0 |
|
[AgX3Z2]3- 0 |
|
[AgX5Z]3- 0 |
|
[AgX7]3- 0 |
|
| X+2Z = 8 | [AgZ4]3- 0 |
|
[AgX2Z3]3- 0 |
|
[AgX4Z2]3- 0 |
|
[AgX6Z]3- 0 |
|
[AgX8]3- 0 |
| X+2Z = 9 | |
[AgXZ4]3- 0 |
|
[AgX3Z3]3- 0 |
|
[AgX5Z2]3- 0 |
|
[AgX7Z]3- 0 |
|
| X+2Z = 10 | [AgZ5]3- 0 |
|
[AgX2Z4]3- 0 |
|
[AgX4Z3]3- 0 |
|
[AgX6Z2]3- 0 |
|
[AgX8Z]3- 0 |
| X+2Z = 11 | |
[AgXZ5]3- 0 |
|
[AgX3Z4]3- 0 |
|
[AgX5Z3]3- 0 |
|
[AgX7Z2]3- 0 |
|
| X+2Z = 12 | [AgZ6]3- 0 |
|
[AgX2Z5]3- 0 |
|
[AgX4Z4]3- 0 |
|
[AgX6Z3]3- 0 |
|
[AgX8Z2]3- 0 |
MLXZq± grid for silver (Ag) for Q = -2: [AgXxLlZz]2-
The number of compounds found is 5.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of silver with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[AgL]2- 0 |
|
[AgL2]2- 0 |
|
[AgL3]2- 0 |
|
[AgL4]2- 0 |
|
| X+2Z = 1 | [AgX]2- 0 |
|
[AgLX]2- 0 |
|
[AgL2X]2- 0 |
|
[AgL3X]2- 0 |
|
[AgL4X]2- 0 |
| X+2Z = 2 | |
[AgX2]2- 0 |
|
[AgLX2]2- 0 |
|
[AgL2X2]2- 0 |
|
[AgL3X2]2- 0 |
|
| X+2Z = 3 | [AgXZ]2- 0 |
|
[AgX3]2- 60% |
|
[AgLX3]2- 0 |
|
[AgL2X3]2- 20% |
|
[AgL3X3]2- 0 |
| X+2Z = 4 | |
[AgX2Z]2- 0 |
|
[AgX4]2- 20% |
|
[AgLX4]2- 0 |
|
[AgL2X4]2- 0 |
|
| X+2Z = 5 | [AgXZ2]2- 0 |
|
[AgX3Z]2- 0 |
|
[AgX5]2- 0 |
|
[AgLX5]2- 0 |
|
[AgL2X5]2- 0 |
| X+2Z = 6 | |
[AgX2Z2]2- 0 |
|
[AgX4Z]2- 0 |
|
[AgX6]2- 0 |
|
[AgLX6]2- 0 |
|
| X+2Z = 7 | [AgXZ3]2- 0 |
|
[AgX3Z2]2- 0 |
|
[AgX5Z]2- 0 |
|
[AgX7]2- 0 |
|
[AgLX7]2- 0 |
| X+2Z = 8 | |
[AgX2Z3]2- 0 |
|
[AgX4Z2]2- 0 |
|
[AgX6Z]2- 0 |
|
[AgX8]2- 0 |
|
| X+2Z = 9 | [AgXZ4]2- 0 |
|
[AgX3Z3]2- 0 |
|
[AgX5Z2]2- 0 |
|
[AgX7Z]2- 0 |
|
[AgX9]2- 0 |
| X+2Z = 10 | |
[AgX2Z4]2- 0 |
|
[AgX4Z3]2- 0 |
|
[AgX6Z2]2- 0 |
|
[AgX8Z]2- 0 |
|
| X+2Z = 11 | [AgXZ5]2- 0 |
|
[AgX3Z4]2- 0 |
|
[AgX5Z3]2- 0 |
|
[AgX7Z2]2- 0 |
|
[AgX9Z]2- 0 |
| X+2Z = 12 | |
[AgX2Z5]2- 0 |
|
[AgX4Z4]2- 0 |
|
[AgX6Z3]2- 0 |
|
[AgX8Z2]2- 0 |
|
MLXZq± grid for silver (Ag) for Q = -1: [AgXxLlZz]-
The number of compounds found is 30.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of silver with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [AgL]- 0 |
|
[AgL2]- 0 |
|
[AgL3]- 0 |
|
[AgL4]- 0 |
|
[AgL5]- 0 |
| X+2Z = 1 | |
[AgLX]- 0 |
|
[AgL2X]- 0 |
|
[AgL3X]- 0 |
|
[AgL4X]- 0 |
|
| X+2Z = 2 | [AgX2]- 37% |
|
[AgLX2]- 7% |
|
[AgL2X2]- 13% |
|
[AgL3X2]- 3% |
|
[AgL4X2]- 0 |
| X+2Z = 3 | |
[AgX3]- 0 |
|
[AgLX3]- 0 |
|
[AgL2X3]- 0 |
|
[AgL3X3]- 0 |
|
| X+2Z = 4 | [AgX2Z]- 0 |
|
[AgX4]- 37% |
|
[AgLX4]- 0 |
|
[AgL2X4]- 0 |
|
[AgL3X4]- 0 |
| X+2Z = 5 | |
[AgX3Z]- 0 |
|
[AgX5]- 3% |
|
[AgLX5]- 0 |
|
[AgL2X5]- 0 |
|
| X+2Z = 6 | [AgX2Z2]- 0 |
|
[AgX4Z]- 0 |
|
[AgX6]- 0 |
|
[AgLX6]- 0 |
|
[AgL2X6]- 0 |
| X+2Z = 7 | |
[AgX3Z2]- 0 |
|
[AgX5Z]- 0 |
|
[AgX7]- 0 |
|
[AgLX7]- 0 |
|
| X+2Z = 8 | [AgX2Z3]- 0 |
|
[AgX4Z2]- 0 |
|
[AgX6Z]- 0 |
|
[AgX8]- 0 |
|
[AgLX8]- 0 |
| X+2Z = 9 | |
[AgX3Z3]- 0 |
|
[AgX5Z2]- 0 |
|
[AgX7Z]- 0 |
|
[AgX9]- 0 |
|
| X+2Z = 10 | [AgX2Z4]- 0 |
|
[AgX4Z3]- 0 |
|
[AgX6Z2]- 0 |
|
[AgX8Z]- 0 |
|
[AgX10]- 0 |
| X+2Z = 11 | |
[AgX3Z4]- 0 |
|
[AgX5Z3]- 0 |
|
[AgX7Z2]- 0 |
|
[AgX9Z]- 0 |
|
| X+2Z = 12 | [AgX2Z5]- 0 |
|
[AgX4Z4]- 0 |
|
[AgX6Z3]- 0 |
|
[AgX8Z2]- 0 |
|
[AgX10Z]- 0 |
MLXZq± grid for silver (Ag) for Q = 0: [AgXxLlZz]
The number of compounds found is 130.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of silver with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[AgL2] 0 |
|
[AgL3] 0 |
|
[AgL4] 0 |
|
[AgL5] 0 |
|
| X+2Z = 1 | [AgLX] 2% |
|
[AgL2X] 30% |
|
[AgL3X] 51% |
|
[AgL4X] 5% |
|
[AgL5X] 1% |
| X+2Z = 2 | |
[AgLX2] 0 |
|
[AgL2X2] 8% |
|
[AgL3X2] 0 |
|
[AgL4X2] 1% |
|
| X+2Z = 3 | [AgX3] 0 |
|
[AgLX3] 2% |
|
[AgL2X3] 1% |
|
[AgL3X3] 0 |
|
[AgL4X3] 0 |
| X+2Z = 4 | |
[AgX4] 0 |
|
[AgLX4] 0 |
|
[AgL2X4] 0 |
|
[AgL3X4] 0 |
|
| X+2Z = 5 | [AgX3Z] 0 |
|
[AgX5] 0 |
|
[AgLX5] 0 |
|
[AgL2X5] 0 |
|
[AgL3X5] 0 |
| X+2Z = 6 | |
[AgX4Z] 0 |
|
[AgX6] 0 |
|
[AgLX6] 0 |
|
[AgL2X6] 0 |
|
| X+2Z = 7 | [AgX3Z2] 0 |
|
[AgX5Z] 0 |
|
[AgX7] 0 |
|
[AgLX7] 0 |
|
[AgL2X7] 0 |
| X+2Z = 8 | |
[AgX4Z2] 0 |
|
[AgX6Z] 0 |
|
[AgX8] 0 |
|
[AgLX8] 0 |
|
| X+2Z = 9 | [AgX3Z3] 0 |
|
[AgX5Z2] 0 |
|
[AgX7Z] 0 |
|
[AgX9] 0 |
|
[AgLX9] 0 |
| X+2Z = 10 | |
[AgX4Z3] 0 |
|
[AgX6Z2] 0 |
|
[AgX8Z] 0 |
|
[AgX10] 0 |
|
| X+2Z = 11 | [AgX3Z4] 0 |
|
[AgX5Z3] 0 |
|
[AgX7Z2] 0 |
|
[AgX9Z] 0 |
|
[AgX11] 0 |
| X+2Z = 12 | |
[AgX4Z4] 0 |
|
[AgX6Z3] 0 |
|
[AgX8Z2] 0 |
|
[AgX10Z] 0 |
|
MLXZq± grid for silver (Ag) for Q = 1: [AgXxLlZz]+
The number of compounds found is 56.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of silver with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [AgL2]+ 39% |
|
[AgL3]+ 20% |
|
[AgL4]+ 30% |
|
[AgL5]+ 2% |
|
[AgL6]+ 4% |
| X+2Z = 1 | |
[AgL2X]+ 0 |
|
[AgL3X]+ 0 |
|
[AgL4X]+ 0 |
|
[AgL5X]+ 2% |
|
| X+2Z = 2 | [AgLX2]+ 0 |
|
[AgL2X2]+ 2% |
|
[AgL3X2]+ 0 |
|
[AgL4X2]+ 0 |
|
[AgL5X2]+ 0 |
| X+2Z = 3 | |
[AgLX3]+ 0 |
|
[AgL2X3]+ 0 |
|
[AgL3X3]+ 0 |
|
[AgL4X3]+ 0 |
|
| X+2Z = 4 | [AgX4]+ 0 |
|
[AgLX4]+ 0 |
|
[AgL2X4]+ 0 |
|
[AgL3X4]+ 0 |
|
[AgL4X4]+ 0 |
| X+2Z = 5 | |
[AgX5]+ 0 |
|
[AgLX5]+ 0 |
|
[AgL2X5]+ 0 |
|
[AgL3X5]+ 0 |
|
| X+2Z = 6 | [AgX4Z]+ 0 |
|
[AgX6]+ 0 |
|
[AgLX6]+ 0 |
|
[AgL2X6]+ 0 |
|
[AgL3X6]+ 0 |
| X+2Z = 7 | |
[AgX5Z]+ 0 |
|
[AgX7]+ 0 |
|
[AgLX7]+ 0 |
|
[AgL2X7]+ 0 |
|
| X+2Z = 8 | [AgX4Z2]+ 0 |
|
[AgX6Z]+ 0 |
|
[AgX8]+ 0 |
|
[AgLX8]+ 0 |
|
[AgL2X8]+ 0 |
| X+2Z = 9 | |
[AgX5Z2]+ 0 |
|
[AgX7Z]+ 0 |
|
[AgX9]+ 0 |
|
[AgLX9]+ 0 |
|
| X+2Z = 10 | [AgX4Z3]+ 0 |
|
[AgX6Z2]+ 0 |
|
[AgX8Z]+ 0 |
|
[AgX10]+ 0 |
|
[AgLX10]+ 0 |
| X+2Z = 11 | |
[AgX5Z3]+ 0 |
|
[AgX7Z2]+ 0 |
|
[AgX9Z]+ 0 |
|
[AgX11]+ 0 |
|
| X+2Z = 12 | [AgX4Z4]+ 0 |
|
[AgX6Z3]+ 0 |
|
[AgX8Z2]+ 0 |
|
[AgX10Z]+ 0 |
|
[AgX12]+ 0 |
MLXZq± grid for silver (Ag) for Q = 2: [AgXxLlZz]2+
The number of compounds found is 4.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of silver with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[AgL3]2+ 0 |
|
[AgL4]2+ 50% |
|
[AgL5]2+ 25% |
|
[AgL6]2+ 25% |
|
| X+2Z = 1 | [AgL2X]2+ 0 |
|
[AgL3X]2+ 0 |
|
[AgL4X]2+ 0 |
|
[AgL5X]2+ 0 |
|
[AgL6X]2+ 0 |
| X+2Z = 2 | |
[AgL2X2]2+ 0 |
|
[AgL3X2]2+ 0 |
|
[AgL4X2]2+ 0 |
|
[AgL5X2]2+ 0 |
|
| X+2Z = 3 | [AgLX3]2+ 0 |
|
[AgL2X3]2+ 0 |
|
[AgL3X3]2+ 0 |
|
[AgL4X3]2+ 0 |
|
[AgL5X3]2+ 0 |
| X+2Z = 4 | |
[AgLX4]2+ 0 |
|
[AgL2X4]2+ 0 |
|
[AgL3X4]2+ 0 |
|
[AgL4X4]2+ 0 |
|
| X+2Z = 5 | [AgX5]2+ 0 |
|
[AgLX5]2+ 0 |
|
[AgL2X5]2+ 0 |
|
[AgL3X5]2+ 0 |
|
[AgL4X5]2+ 0 |
| X+2Z = 6 | |
[AgX6]2+ 0 |
|
[AgLX6]2+ 0 |
|
[AgL2X6]2+ 0 |
|
[AgL3X6]2+ 0 |
|
| X+2Z = 7 | [AgX5Z]2+ 0 |
|
[AgX7]2+ 0 |
|
[AgLX7]2+ 0 |
|
[AgL2X7]2+ 0 |
|
[AgL3X7]2+ 0 |
| X+2Z = 8 | |
[AgX6Z]2+ 0 |
|
[AgX8]2+ 0 |
|
[AgLX8]2+ 0 |
|
[AgL2X8]2+ 0 |
|
| X+2Z = 9 | [AgX5Z2]2+ 0 |
|
[AgX7Z]2+ 0 |
|
[AgX9]2+ 0 |
|
[AgLX9]2+ 0 |
|
[AgL2X9]2+ 0 |
| X+2Z = 10 | |
[AgX6Z2]2+ 0 |
|
[AgX8Z]2+ 0 |
|
[AgX10]2+ 0 |
|
[AgLX10]2+ 0 |
|
| X+2Z = 11 | [AgX5Z3]2+ 0 |
|
[AgX7Z2]2+ 0 |
|
[AgX9Z]2+ 0 |
|
[AgX11]2+ 0 |
|
[AgLX11]2+ 0 |
| X+2Z = 12 | |
[AgX6Z3]2+ 0 |
|
[AgX8Z2]2+ 0 |
|
[AgX10Z]2+ 0 |
|
[AgX12]2+ 0 |
|
MLXZq± grid for silver (Ag) for Q = 3: [AgXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for silver (Ag) for Q = 4: [AgXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for cadmium (Cd) for Q = -6: [CdXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for cadmium (Cd) for Q = -5: [CdXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for cadmium (Cd) for Q = -4: [CdXxLlZz]4-
The number of compounds found is 4.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of cadmium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [CdZ]4- 0 |
|
[Cd]4- 0 |
|
[CdL]4- 0 |
|
[CdL2]4- 0 |
|
[CdL3]4- 0 |
|
[CdL4]4- 0 |
|
[CdL5]4- 0 |
|
[CdL6]4- 0 |
| X+2Z = 1 | |
[CdZ]4- 0 |
|
[CdX]4- 0 |
|
[CdLX]4- 0 |
|
[CdL2X]4- 0 |
|
[CdL3X]4- 0 |
|
[CdL4X]4- 0 |
|
[CdL5X]4- 0 |
|
| X+2Z = 2 | [CdZ2]4- 0 |
|
[CdZ]4- 0 |
|
[CdX2]4- 0 |
|
[CdLX2]4- 0 |
|
[CdL2X2]4- 0 |
|
[CdL3X2]4- 0 |
|
[CdL4X2]4- 0 |
|
[CdL5X2]4- 0 |
| X+2Z = 3 | |
[CdZ2]4- 0 |
|
[CdXZ]4- 0 |
|
[CdX3]4- 0 |
|
[CdLX3]4- 0 |
|
[CdL2X3]4- 0 |
|
[CdL3X3]4- 0 |
|
[CdL4X3]4- 0 |
|
| X+2Z = 4 | [CdZ3]4- 0 |
|
[CdZ2]4- 0 |
|
[CdX2Z]4- 0 |
|
[CdX4]4- 0 |
|
[CdLX4]4- 0 |
|
[CdL2X4]4- 0 |
|
[CdL3X4]4- 0 |
|
[CdL4X4]4- 0 |
| X+2Z = 5 | |
[CdZ3]4- 0 |
|
[CdXZ2]4- 0 |
|
[CdX3Z]4- 0 |
|
[CdX5]4- 0 |
|
[CdLX5]4- 0 |
|
[CdL2X5]4- 0 |
|
[CdL3X5]4- 0 |
|
| X+2Z = 6 | [CdZ4]4- 0 |
|
[CdZ3]4- 0 |
|
[CdX2Z2]4- 0 |
|
[CdX4Z]4- 0 |
|
[CdX6]4- 100% |
|
[CdLX6]4- 0 |
|
[CdL2X6]4- 0 |
|
[CdL3X6]4- 0 |
| X+2Z = 7 | |
[CdZ4]4- 0 |
|
[CdXZ3]4- 0 |
|
[CdX3Z2]4- 0 |
|
[CdX5Z]4- 0 |
|
[CdX7]4- 0 |
|
[CdLX7]4- 0 |
|
[CdL2X7]4- 0 |
|
| X+2Z = 8 | [CdZ5]4- 0 |
|
[CdZ4]4- 0 |
|
[CdX2Z3]4- 0 |
|
[CdX4Z2]4- 0 |
|
[CdX6Z]4- 0 |
|
[CdX8]4- 0 |
|
[CdLX8]4- 0 |
|
[CdL2X8]4- 0 |
| X+2Z = 9 | |
[CdZ5]4- 0 |
|
[CdXZ4]4- 0 |
|
[CdX3Z3]4- 0 |
|
[CdX5Z2]4- 0 |
|
[CdX7Z]4- 0 |
|
[CdX9]4- 0 |
|
[CdLX9]4- 0 |
|
| X+2Z = 10 | [CdZ6]4- 0 |
|
[CdZ5]4- 0 |
|
[CdX2Z4]4- 0 |
|
[CdX4Z3]4- 0 |
|
[CdX6Z2]4- 0 |
|
[CdX8Z]4- 0 |
|
[CdX10]4- 0 |
|
[CdLX10]4- 0 |
| X+2Z = 11 | |
[CdZ6]4- 0 |
|
[CdXZ5]4- 0 |
|
[CdX3Z4]4- 0 |
|
[CdX5Z3]4- 0 |
|
[CdX7Z2]4- 0 |
|
[CdX9Z]4- 0 |
|
[CdX11]4- 0 |
|
| X+2Z = 12 | [CdZ7]4- 0 |
|
[CdZ6]4- 0 |
|
[CdX2Z5]4- 0 |
|
[CdX4Z4]4- 0 |
|
[CdX6Z3]4- 0 |
|
[CdX8Z2]4- 0 |
|
[CdX10Z]4- 0 |
|
[CdX12]4- 0 |
MLXZq± grid for cadmium (Cd) for Q = -3: [CdXxLlZz]3-
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of cadmium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[Cd]3- 0 |
|
[CdL]3- 0 |
|
[CdL2]3- 0 |
|
[CdL3]3- 0 |
|
[CdL4]3- 0 |
|
[CdL5]3- 0 |
|
[CdL6]3- 0 |
|
| X+2Z = 1 | [CdZ]3- 0 |
|
[CdX]3- 0 |
|
[CdLX]3- 0 |
|
[CdL2X]3- 0 |
|
[CdL3X]3- 0 |
|
[CdL4X]3- 0 |
|
[CdL5X]3- 0 |
|
[CdL6X]3- 0 |
| X+2Z = 2 | |
[CdZ]3- 0 |
|
[CdX2]3- 0 |
|
[CdLX2]3- 0 |
|
[CdL2X2]3- 0 |
|
[CdL3X2]3- 0 |
|
[CdL4X2]3- 0 |
|
[CdL5X2]3- 0 |
|
| X+2Z = 3 | [CdZ2]3- 0 |
|
[CdXZ]3- 0 |
|
[CdX3]3- 0 |
|
[CdLX3]3- 0 |
|
[CdL2X3]3- 0 |
|
[CdL3X3]3- 0 |
|
[CdL4X3]3- 0 |
|
[CdL5X3]3- 0 |
| X+2Z = 4 | |
[CdZ2]3- 0 |
|
[CdX2Z]3- 0 |
|
[CdX4]3- 0 |
|
[CdLX4]3- 0 |
|
[CdL2X4]3- 0 |
|
[CdL3X4]3- 0 |
|
[CdL4X4]3- 0 |
|
| X+2Z = 5 | [CdZ3]3- 0 |
|
[CdXZ2]3- 0 |
|
[CdX3Z]3- 0 |
|
[CdX5]3- 100% |
|
[CdLX5]3- 0 |
|
[CdL2X5]3- 0 |
|
[CdL3X5]3- 0 |
|
[CdL4X5]3- 0 |
| X+2Z = 6 | |
[CdZ3]3- 0 |
|
[CdX2Z2]3- 0 |
|
[CdX4Z]3- 0 |
|
[CdX6]3- 0 |
|
[CdLX6]3- 0 |
|
[CdL2X6]3- 0 |
|
[CdL3X6]3- 0 |
|
| X+2Z = 7 | [CdZ4]3- 0 |
|
[CdXZ3]3- 0 |
|
[CdX3Z2]3- 0 |
|
[CdX5Z]3- 0 |
|
[CdX7]3- 0 |
|
[CdLX7]3- 0 |
|
[CdL2X7]3- 0 |
|
[CdL3X7]3- 0 |
| X+2Z = 8 | |
[CdZ4]3- 0 |
|
[CdX2Z3]3- 0 |
|
[CdX4Z2]3- 0 |
|
[CdX6Z]3- 0 |
|
[CdX8]3- 0 |
|
[CdLX8]3- 0 |
|
[CdL2X8]3- 0 |
|
| X+2Z = 9 | [CdZ5]3- 0 |
|
[CdXZ4]3- 0 |
|
[CdX3Z3]3- 0 |
|
[CdX5Z2]3- 0 |
|
[CdX7Z]3- 0 |
|
[CdX9]3- 0 |
|
[CdLX9]3- 0 |
|
[CdL2X9]3- 0 |
| X+2Z = 10 | |
[CdZ5]3- 0 |
|
[CdX2Z4]3- 0 |
|
[CdX4Z3]3- 0 |
|
[CdX6Z2]3- 0 |
|
[CdX8Z]3- 0 |
|
[CdX10]3- 0 |
|
[CdLX10]3- 0 |
|
| X+2Z = 11 | [CdZ6]3- 0 |
|
[CdXZ5]3- 0 |
|
[CdX3Z4]3- 0 |
|
[CdX5Z3]3- 0 |
|
[CdX7Z2]3- 0 |
|
[CdX9Z]3- 0 |
|
[CdX11]3- 0 |
|
[CdLX11]3- 0 |
| X+2Z = 12 | |
[CdZ6]3- 0 |
|
[CdX2Z5]3- 0 |
|
[CdX4Z4]3- 0 |
|
[CdX6Z3]3- 0 |
|
[CdX8Z2]3- 0 |
|
[CdX10Z]3- 0 |
|
[CdX12]3- 0 |
|
MLXZq± grid for cadmium (Cd) for Q = -2: [CdXxLlZz]2-
The number of compounds found is 18.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of cadmium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Cd]2- 0 |
|
[CdL]2- 0 |
|
[CdL2]2- 0 |
|
[CdL3]2- 0 |
|
[CdL4]2- 0 |
|
[CdL5]2- 0 |
|
[CdL6]2- 0 |
|
[CdL7]2- 0 |
| X+2Z = 1 | |
[CdX]2- 0 |
|
[CdLX]2- 0 |
|
[CdL2X]2- 0 |
|
[CdL3X]2- 0 |
|
[CdL4X]2- 0 |
|
[CdL5X]2- 0 |
|
[CdL6X]2- 0 |
|
| X+2Z = 2 | [CdZ]2- 0 |
|
[CdX2]2- 0 |
|
[CdLX2]2- 0 |
|
[CdL2X2]2- 0 |
|
[CdL3X2]2- 0 |
|
[CdL4X2]2- 0 |
|
[CdL5X2]2- 0 |
|
[CdL6X2]2- 0 |
| X+2Z = 3 | |
[CdXZ]2- 0 |
|
[CdX3]2- 0 |
|
[CdLX3]2- 0 |
|
[CdL2X3]2- 0 |
|
[CdL3X3]2- 0 |
|
[CdL4X3]2- 0 |
|
[CdL5X3]2- 0 |
|
| X+2Z = 4 | [CdZ2]2- 0 |
|
[CdX2Z]2- 0 |
|
[CdX4]2- 78% |
|
[CdLX4]2- 0 |
|
[CdL2X4]2- 22% |
|
[CdL3X4]2- 0 |
|
[CdL4X4]2- 0 |
|
[CdL5X4]2- 0 |
| X+2Z = 5 | |
[CdXZ2]2- 0 |
|
[CdX3Z]2- 0 |
|
[CdX5]2- 0 |
|
[CdLX5]2- 0 |
|
[CdL2X5]2- 0 |
|
[CdL3X5]2- 0 |
|
[CdL4X5]2- 0 |
|
| X+2Z = 6 | [CdZ3]2- 0 |
|
[CdX2Z2]2- 0 |
|
[CdX4Z]2- 0 |
|
[CdX6]2- 0 |
|
[CdLX6]2- 0 |
|
[CdL2X6]2- 0 |
|
[CdL3X6]2- 0 |
|
[CdL4X6]2- 0 |
| X+2Z = 7 | |
[CdXZ3]2- 0 |
|
[CdX3Z2]2- 0 |
|
[CdX5Z]2- 0 |
|
[CdX7]2- 0 |
|
[CdLX7]2- 0 |
|
[CdL2X7]2- 0 |
|
[CdL3X7]2- 0 |
|
| X+2Z = 8 | [CdZ4]2- 0 |
|
[CdX2Z3]2- 0 |
|
[CdX4Z2]2- 0 |
|
[CdX6Z]2- 0 |
|
[CdX8]2- 0 |
|
[CdLX8]2- 0 |
|
[CdL2X8]2- 0 |
|
[CdL3X8]2- 0 |
| X+2Z = 9 | |
[CdXZ4]2- 0 |
|
[CdX3Z3]2- 0 |
|
[CdX5Z2]2- 0 |
|
[CdX7Z]2- 0 |
|
[CdX9]2- 0 |
|
[CdLX9]2- 0 |
|
[CdL2X9]2- 0 |
|
| X+2Z = 10 | [CdZ5]2- 0 |
|
[CdX2Z4]2- 0 |
|
[CdX4Z3]2- 0 |
|
[CdX6Z2]2- 0 |
|
[CdX8Z]2- 0 |
|
[CdX10]2- 0 |
|
[CdLX10]2- 0 |
|
[CdL2X10]2- 0 |
| X+2Z = 11 | |
[CdXZ5]2- 0 |
|
[CdX3Z4]2- 0 |
|
[CdX5Z3]2- 0 |
|
[CdX7Z2]2- 0 |
|
[CdX9Z]2- 0 |
|
[CdX11]2- 0 |
|
[CdLX11]2- 0 |
|
| X+2Z = 12 | [CdZ6]2- 0 |
|
[CdX2Z5]2- 0 |
|
[CdX4Z4]2- 0 |
|
[CdX6Z3]2- 0 |
|
[CdX8Z2]2- 0 |
|
[CdX10Z]2- 0 |
|
[CdX12]2- 0 |
|
[CdLX12]2- 0 |
MLXZq± grid for cadmium (Cd) for Q = -1: [CdXxLlZz]-
The number of compounds found is 19.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of cadmium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[CdL]- 0 |
|
[CdL2]- 0 |
|
[CdL3]- 0 |
|
[CdL4]- 0 |
|
[CdL5]- 0 |
|
[CdL6]- 0 |
|
[CdL7]- 0 |
|
| X+2Z = 1 | [CdX]- 0 |
|
[CdLX]- 0 |
|
[CdL2X]- 0 |
|
[CdL3X]- 0 |
|
[CdL4X]- 0 |
|
[CdL5X]- 0 |
|
[CdL6X]- 0 |
|
[CdL7X]- 0 |
| X+2Z = 2 | |
[CdX2]- 0 |
|
[CdLX2]- 0 |
|
[CdL2X2]- 0 |
|
[CdL3X2]- 0 |
|
[CdL4X2]- 0 |
|
[CdL5X2]- 0 |
|
[CdL6X2]- 0 |
|
| X+2Z = 3 | [CdXZ]- 0 |
|
[CdX3]- 11% |
|
[CdLX3]- 47% |
|
[CdL2X3]- 16% |
|
[CdL3X3]- 26% |
|
[CdL4X3]- 0 |
|
[CdL5X3]- 0 |
|
[CdL6X3]- 0 |
| X+2Z = 4 | |
[CdX2Z]- 0 |
|
[CdX4]- 0 |
|
[CdLX4]- 0 |
|
[CdL2X4]- 0 |
|
[CdL3X4]- 0 |
|
[CdL4X4]- 0 |
|
[CdL5X4]- 0 |
|
| X+2Z = 5 | [CdXZ2]- 0 |
|
[CdX3Z]- 0 |
|
[CdX5]- 0 |
|
[CdLX5]- 0 |
|
[CdL2X5]- 0 |
|
[CdL3X5]- 0 |
|
[CdL4X5]- 0 |
|
[CdL5X5]- 0 |
| X+2Z = 6 | |
[CdX2Z2]- 0 |
|
[CdX4Z]- 0 |
|
[CdX6]- 0 |
|
[CdLX6]- 0 |
|
[CdL2X6]- 0 |
|
[CdL3X6]- 0 |
|
[CdL4X6]- 0 |
|
| X+2Z = 7 | [CdXZ3]- 0 |
|
[CdX3Z2]- 0 |
|
[CdX5Z]- 0 |
|
[CdX7]- 0 |
|
[CdLX7]- 0 |
|
[CdL2X7]- 0 |
|
[CdL3X7]- 0 |
|
[CdL4X7]- 0 |
| X+2Z = 8 | |
[CdX2Z3]- 0 |
|
[CdX4Z2]- 0 |
|
[CdX6Z]- 0 |
|
[CdX8]- 0 |
|
[CdLX8]- 0 |
|
[CdL2X8]- 0 |
|
[CdL3X8]- 0 |
|
| X+2Z = 9 | [CdXZ4]- 0 |
|
[CdX3Z3]- 0 |
|
[CdX5Z2]- 0 |
|
[CdX7Z]- 0 |
|
[CdX9]- 0 |
|
[CdLX9]- 0 |
|
[CdL2X9]- 0 |
|
[CdL3X9]- 0 |
| X+2Z = 10 | |
[CdX2Z4]- 0 |
|
[CdX4Z3]- 0 |
|
[CdX6Z2]- 0 |
|
[CdX8Z]- 0 |
|
[CdX10]- 0 |
|
[CdLX10]- 0 |
|
[CdL2X10]- 0 |
|
| X+2Z = 11 | [CdXZ5]- 0 |
|
[CdX3Z4]- 0 |
|
[CdX5Z3]- 0 |
|
[CdX7Z2]- 0 |
|
[CdX9Z]- 0 |
|
[CdX11]- 0 |
|
[CdLX11]- 0 |
|
[CdL2X11]- 0 |
| X+2Z = 12 | |
[CdX2Z5]- 0 |
|
[CdX4Z4]- 0 |
|
[CdX6Z3]- 0 |
|
[CdX8Z2]- 0 |
|
[CdX10Z]- 0 |
|
[CdX12]- 0 |
|
[CdLX12]- 0 |
|
MLXZq± grid for cadmium (Cd) for Q = 0: [CdXxLlZz]
The number of compounds found is 131.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of cadmium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [CdL] 0 |
|
[CdL2] 0 |
|
[CdL3] 0 |
|
[CdL4] 0 |
|
[CdL5] 0 |
|
[CdL6] 0 |
|
[CdL7] 0 |
|
[CdL8] 0 |
| X+2Z = 1 | |
[CdLX] 0 |
|
[CdL2X] 0 |
|
[CdL3X] 0 |
|
[CdL4X] 0 |
|
[CdL5X] 0 |
|
[CdL6X] 0 |
|
[CdL7X] 0 |
|
| X+2Z = 2 | [CdX2] 4% |
|
[CdLX2] 0 |
|
[CdL2X2] 27% |
|
[CdL3X2] 6% |
|
[CdL4X2] 47% |
|
[CdL5X2] 8% |
|
[CdL6X2] 7% |
|
[CdL7X2] 2% |
| X+2Z = 3 | |
[CdX3] 0 |
|
[CdLX3] 0 |
|
[CdL2X3] 0 |
|
[CdL3X3] 0 |
|
[CdL4X3] 0 |
|
[CdL5X3] 0 |
|
[CdL6X3] 0 |
|
| X+2Z = 4 | [CdX2Z] 0 |
|
[CdX4] 0 |
|
[CdLX4] 0 |
|
[CdL2X4] 0 |
|
[CdL3X4] 0 |
|
[CdL4X4] 0 |
|
[CdL5X4] 0 |
|
[CdL6X4] 0 |
| X+2Z = 5 | |
[CdX3Z] 0 |
|
[CdX5] 0 |
|
[CdLX5] 0 |
|
[CdL2X5] 0 |
|
[CdL3X5] 0 |
|
[CdL4X5] 0 |
|
[CdL5X5] 0 |
|
| X+2Z = 6 | [CdX2Z2] 0 |
|
[CdX4Z] 0 |
|
[CdX6] 0 |
|
[CdLX6] 0 |
|
[CdL2X6] 0 |
|
[CdL3X6] 0 |
|
[CdL4X6] 0 |
|
[CdL5X6] 0 |
| X+2Z = 7 | |
[CdX3Z2] 0 |
|
[CdX5Z] 0 |
|
[CdX7] 0 |
|
[CdLX7] 0 |
|
[CdL2X7] 0 |
|
[CdL3X7] 0 |
|
[CdL4X7] 0 |
|
| X+2Z = 8 | [CdX2Z3] 0 |
|
[CdX4Z2] 0 |
|
[CdX6Z] 0 |
|
[CdX8] 0 |
|
[CdLX8] 0 |
|
[CdL2X8] 0 |
|
[CdL3X8] 0 |
|
[CdL4X8] 0 |
| X+2Z = 9 | |
[CdX3Z3] 0 |
|
[CdX5Z2] 0 |
|
[CdX7Z] 0 |
|
[CdX9] 0 |
|
[CdLX9] 0 |
|
[CdL2X9] 0 |
|
[CdL3X9] 0 |
|
| X+2Z = 10 | [CdX2Z4] 0 |
|
[CdX4Z3] 0 |
|
[CdX6Z2] 0 |
|
[CdX8Z] 0 |
|
[CdX10] 0 |
|
[CdLX10] 0 |
|
[CdL2X10] 0 |
|
[CdL3X10] 0 |
| X+2Z = 11 | |
[CdX3Z4] 0 |
|
[CdX5Z3] 0 |
|
[CdX7Z2] 0 |
|
[CdX9Z] 0 |
|
[CdX11] 0 |
|
[CdLX11] 0 |
|
[CdL2X11] 0 |
|
| X+2Z = 12 | [CdX2Z5] 0 |
|
[CdX4Z4] 0 |
|
[CdX6Z3] 0 |
|
[CdX8Z2] 0 |
|
[CdX10Z] 0 |
|
[CdX12] 0 |
|
[CdLX12] 0 |
|
[CdL2X12] 0 |
MLXZq± grid for cadmium (Cd) for Q = 1: [CdXxLlZz]+
The number of compounds found is 7.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of cadmium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[CdL2]+ 0 |
|
[CdL3]+ 0 |
|
[CdL4]+ 0 |
|
[CdL5]+ 0 |
|
[CdL6]+ 0 |
|
[CdL7]+ 0 |
|
[CdL8]+ 0 |
|
| X+2Z = 1 | [CdLX]+ 0 |
|
[CdL2X]+ 0 |
|
[CdL3X]+ 0 |
|
[CdL4X]+ 0 |
|
[CdL5X]+ 71% |
|
[CdL6X]+ 29% |
|
[CdL7X]+ 0 |
|
[CdL8X]+ 0 |
| X+2Z = 2 | |
[CdLX2]+ 0 |
|
[CdL2X2]+ 0 |
|
[CdL3X2]+ 0 |
|
[CdL4X2]+ 0 |
|
[CdL5X2]+ 0 |
|
[CdL6X2]+ 0 |
|
[CdL7X2]+ 0 |
|
| X+2Z = 3 | [CdX3]+ 0 |
|
[CdLX3]+ 0 |
|
[CdL2X3]+ 0 |
|
[CdL3X3]+ 0 |
|
[CdL4X3]+ 0 |
|
[CdL5X3]+ 0 |
|
[CdL6X3]+ 0 |
|
[CdL7X3]+ 0 |
| X+2Z = 4 | |
[CdX4]+ 0 |
|
[CdLX4]+ 0 |
|
[CdL2X4]+ 0 |
|
[CdL3X4]+ 0 |
|
[CdL4X4]+ 0 |
|
[CdL5X4]+ 0 |
|
[CdL6X4]+ 0 |
|
| X+2Z = 5 | [CdX3Z]+ 0 |
|
[CdX5]+ 0 |
|
[CdLX5]+ 0 |
|
[CdL2X5]+ 0 |
|
[CdL3X5]+ 0 |
|
[CdL4X5]+ 0 |
|
[CdL5X5]+ 0 |
|
[CdL6X5]+ 0 |
| X+2Z = 6 | |
[CdX4Z]+ 0 |
|
[CdX6]+ 0 |
|
[CdLX6]+ 0 |
|
[CdL2X6]+ 0 |
|
[CdL3X6]+ 0 |
|
[CdL4X6]+ 0 |
|
[CdL5X6]+ 0 |
|
| X+2Z = 7 | [CdX3Z2]+ 0 |
|
[CdX5Z]+ 0 |
|
[CdX7]+ 0 |
|
[CdLX7]+ 0 |
|
[CdL2X7]+ 0 |
|
[CdL3X7]+ 0 |
|
[CdL4X7]+ 0 |
|
[CdL5X7]+ 0 |
| X+2Z = 8 | |
[CdX4Z2]+ 0 |
|
[CdX6Z]+ 0 |
|
[CdX8]+ 0 |
|
[CdLX8]+ 0 |
|
[CdL2X8]+ 0 |
|
[CdL3X8]+ 0 |
|
[CdL4X8]+ 0 |
|
| X+2Z = 9 | [CdX3Z3]+ 0 |
|
[CdX5Z2]+ 0 |
|
[CdX7Z]+ 0 |
|
[CdX9]+ 0 |
|
[CdLX9]+ 0 |
|
[CdL2X9]+ 0 |
|
[CdL3X9]+ 0 |
|
[CdL4X9]+ 0 |
| X+2Z = 10 | |
[CdX4Z3]+ 0 |
|
[CdX6Z2]+ 0 |
|
[CdX8Z]+ 0 |
|
[CdX10]+ 0 |
|
[CdLX10]+ 0 |
|
[CdL2X10]+ 0 |
|
[CdL3X10]+ 0 |
|
| X+2Z = 11 | [CdX3Z4]+ 0 |
|
[CdX5Z3]+ 0 |
|
[CdX7Z2]+ 0 |
|
[CdX9Z]+ 0 |
|
[CdX11]+ 0 |
|
[CdLX11]+ 0 |
|
[CdL2X11]+ 0 |
|
[CdL3X11]+ 0 |
| X+2Z = 12 | |
[CdX4Z4]+ 0 |
|
[CdX6Z3]+ 0 |
|
[CdX8Z2]+ 0 |
|
[CdX10Z]+ 0 |
|
[CdX12]+ 0 |
|
[CdLX12]+ 0 |
|
[CdL2X12]+ 0 |
|
MLXZq± grid for cadmium (Cd) for Q = 2: [CdXxLlZz]2+
The number of compounds found is 28.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of cadmium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [CdL2]2+ 4% |
|
[CdL3]2+ 0 |
|
[CdL4]2+ 4% |
|
[CdL5]2+ 0 |
|
[CdL6]2+ 82% |
|
[CdL7]2+ 4% |
|
[CdL8]2+ 4% |
|
[CdL9]2+ 4% |
| X+2Z = 1 | |
[CdL2X]2+ 0 |
|
[CdL3X]2+ 0 |
|
[CdL4X]2+ 0 |
|
[CdL5X]2+ 0 |
|
[CdL6X]2+ 0 |
|
[CdL7X]2+ 0 |
|
[CdL8X]2+ 0 |
|
| X+2Z = 2 | [CdLX2]2+ 0 |
|
[CdL2X2]2+ 0 |
|
[CdL3X2]2+ 0 |
|
[CdL4X2]2+ 0 |
|
[CdL5X2]2+ 0 |
|
[CdL6X2]2+ 0 |
|
[CdL7X2]2+ 0 |
|
[CdL8X2]2+ 0 |
| X+2Z = 3 | |
[CdLX3]2+ 0 |
|
[CdL2X3]2+ 0 |
|
[CdL3X3]2+ 0 |
|
[CdL4X3]2+ 0 |
|
[CdL5X3]2+ 0 |
|
[CdL6X3]2+ 0 |
|
[CdL7X3]2+ 0 |
|
| X+2Z = 4 | [CdX4]2+ 0 |
|
[CdLX4]2+ 0 |
|
[CdL2X4]2+ 0 |
|
[CdL3X4]2+ 0 |
|
[CdL4X4]2+ 0 |
|
[CdL5X4]2+ 0 |
|
[CdL6X4]2+ 0 |
|
[CdL7X4]2+ 0 |
| X+2Z = 5 | |
[CdX5]2+ 0 |
|
[CdLX5]2+ 0 |
|
[CdL2X5]2+ 0 |
|
[CdL3X5]2+ 0 |
|
[CdL4X5]2+ 0 |
|
[CdL5X5]2+ 0 |
|
[CdL6X5]2+ 0 |
|
| X+2Z = 6 | [CdX4Z]2+ 0 |
|
[CdX6]2+ 0 |
|
[CdLX6]2+ 0 |
|
[CdL2X6]2+ 0 |
|
[CdL3X6]2+ 0 |
|
[CdL4X6]2+ 0 |
|
[CdL5X6]2+ 0 |
|
[CdL6X6]2+ 0 |
| X+2Z = 7 | |
[CdX5Z]2+ 0 |
|
[CdX7]2+ 0 |
|
[CdLX7]2+ 0 |
|
[CdL2X7]2+ 0 |
|
[CdL3X7]2+ 0 |
|
[CdL4X7]2+ 0 |
|
[CdL5X7]2+ 0 |
|
| X+2Z = 8 | [CdX4Z2]2+ 0 |
|
[CdX6Z]2+ 0 |
|
[CdX8]2+ 0 |
|
[CdLX8]2+ 0 |
|
[CdL2X8]2+ 0 |
|
[CdL3X8]2+ 0 |
|
[CdL4X8]2+ 0 |
|
[CdL5X8]2+ 0 |
| X+2Z = 9 | |
[CdX5Z2]2+ 0 |
|
[CdX7Z]2+ 0 |
|
[CdX9]2+ 0 |
|
[CdLX9]2+ 0 |
|
[CdL2X9]2+ 0 |
|
[CdL3X9]2+ 0 |
|
[CdL4X9]2+ 0 |
|
| X+2Z = 10 | [CdX4Z3]2+ 0 |
|
[CdX6Z2]2+ 0 |
|
[CdX8Z]2+ 0 |
|
[CdX10]2+ 0 |
|
[CdLX10]2+ 0 |
|
[CdL2X10]2+ 0 |
|
[CdL3X10]2+ 0 |
|
[CdL4X10]2+ 0 |
| X+2Z = 11 | |
[CdX5Z3]2+ 0 |
|
[CdX7Z2]2+ 0 |
|
[CdX9Z]2+ 0 |
|
[CdX11]2+ 0 |
|
[CdLX11]2+ 0 |
|
[CdL2X11]2+ 0 |
|
[CdL3X11]2+ 0 |
|
| X+2Z = 12 | [CdX4Z4]2+ 0 |
|
[CdX6Z3]2+ 0 |
|
[CdX8Z2]2+ 0 |
|
[CdX10Z]2+ 0 |
|
[CdX12]2+ 0 |
|
[CdLX12]2+ 0 |
|
[CdL2X12]2+ 0 |
|
[CdL3X12]2+ 0 |
MLXZq± grid for cadmium (Cd) for Q = 3: [CdXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for cadmium (Cd) for Q = 4: [CdXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for indium (In) for Q = -6: [InXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for indium (In) for Q = -5: [InXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for indium (In) for Q = -4: [InXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for indium (In) for Q = -3: [InXxLlZz]3-
The number of compounds found is 8.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of indium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [InZ]3- 0 |
|
[In]3- 0 |
|
[InL]3- 0 |
|
[InL2]3- 0 |
|
[InL3]3- 0 |
|
[InL4]3- 0 |
|
[InL5]3- 0 |
|
[InL6]3- 0 |
|
[InL7]3- 0 |
|
[InL8]3- 0 |
| X+2Z = 1 | |
[InZ]3- 0 |
|
[InX]3- 0 |
|
[InLX]3- 0 |
|
[InL2X]3- 0 |
|
[InL3X]3- 0 |
|
[InL4X]3- 0 |
|
[InL5X]3- 0 |
|
[InL6X]3- 0 |
|
[InL7X]3- 0 |
|
| X+2Z = 2 | [InZ2]3- 0 |
|
[InZ]3- 0 |
|
[InX2]3- 0 |
|
[InLX2]3- 0 |
|
[InL2X2]3- 0 |
|
[InL3X2]3- 0 |
|
[InL4X2]3- 0 |
|
[InL5X2]3- 0 |
|
[InL6X2]3- 0 |
|
[InL7X2]3- 0 |
| X+2Z = 3 | |
[InZ2]3- 0 |
|
[InXZ]3- 0 |
|
[InX3]3- 0 |
|
[InLX3]3- 0 |
|
[InL2X3]3- 0 |
|
[InL3X3]3- 0 |
|
[InL4X3]3- 0 |
|
[InL5X3]3- 0 |
|
[InL6X3]3- 0 |
|
| X+2Z = 4 | [InZ3]3- 0 |
|
[InZ2]3- 0 |
|
[InX2Z]3- 0 |
|
[InX4]3- 0 |
|
[InLX4]3- 0 |
|
[InL2X4]3- 0 |
|
[InL3X4]3- 0 |
|
[InL4X4]3- 0 |
|
[InL5X4]3- 0 |
|
[InL6X4]3- 0 |
| X+2Z = 5 | |
[InZ3]3- 0 |
|
[InXZ2]3- 0 |
|
[InX3Z]3- 0 |
|
[InX5]3- 0 |
|
[InLX5]3- 0 |
|
[InL2X5]3- 0 |
|
[InL3X5]3- 0 |
|
[InL4X5]3- 0 |
|
[InL5X5]3- 0 |
|
| X+2Z = 6 | [InZ4]3- 0 |
|
[InZ3]3- 0 |
|
[InX2Z2]3- 0 |
|
[InX4Z]3- 0 |
|
[InX6]3- 75% |
|
[InLX6]3- 13% |
|
[InL2X6]3- 13% |
|
[InL3X6]3- 0 |
|
[InL4X6]3- 0 |
|
[InL5X6]3- 0 |
| X+2Z = 7 | |
[InZ4]3- 0 |
|
[InXZ3]3- 0 |
|
[InX3Z2]3- 0 |
|
[InX5Z]3- 0 |
|
[InX7]3- 0 |
|
[InLX7]3- 0 |
|
[InL2X7]3- 0 |
|
[InL3X7]3- 0 |
|
[InL4X7]3- 0 |
|
| X+2Z = 8 | [InZ5]3- 0 |
|
[InZ4]3- 0 |
|
[InX2Z3]3- 0 |
|
[InX4Z2]3- 0 |
|
[InX6Z]3- 0 |
|
[InX8]3- 0 |
|
[InLX8]3- 0 |
|
[InL2X8]3- 0 |
|
[InL3X8]3- 0 |
|
[InL4X8]3- 0 |
| X+2Z = 9 | |
[InZ5]3- 0 |
|
[InXZ4]3- 0 |
|
[InX3Z3]3- 0 |
|
[InX5Z2]3- 0 |
|
[InX7Z]3- 0 |
|
[InX9]3- 0 |
|
[InLX9]3- 0 |
|
[InL2X9]3- 0 |
|
[InL3X9]3- 0 |
|
| X+2Z = 10 | [InZ6]3- 0 |
|
[InZ5]3- 0 |
|
[InX2Z4]3- 0 |
|
[InX4Z3]3- 0 |
|
[InX6Z2]3- 0 |
|
[InX8Z]3- 0 |
|
[InX10]3- 0 |
|
[InLX10]3- 0 |
|
[InL2X10]3- 0 |
|
[InL3X10]3- 0 |
| X+2Z = 11 | |
[InZ6]3- 0 |
|
[InXZ5]3- 0 |
|
[InX3Z4]3- 0 |
|
[InX5Z3]3- 0 |
|
[InX7Z2]3- 0 |
|
[InX9Z]3- 0 |
|
[InX11]3- 0 |
|
[InLX11]3- 0 |
|
[InL2X11]3- 0 |
|
| X+2Z = 12 | [InZ7]3- 0 |
|
[InZ6]3- 0 |
|
[InX2Z5]3- 0 |
|
[InX4Z4]3- 0 |
|
[InX6Z3]3- 0 |
|
[InX8Z2]3- 0 |
|
[InX10Z]3- 0 |
|
[InX12]3- 0 |
|
[InLX12]3- 0 |
|
[InL2X12]3- 0 |
MLXZq± grid for indium (In) for Q = -2: [InXxLlZz]2-
The number of compounds found is 15.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of indium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[In]2- 0 |
|
[InL]2- 0 |
|
[InL2]2- 0 |
|
[InL3]2- 0 |
|
[InL4]2- 0 |
|
[InL5]2- 0 |
|
[InL6]2- 0 |
|
[InL7]2- 0 |
|
[InL8]2- 0 |
|
| X+2Z = 1 | [InZ]2- 0 |
|
[InX]2- 0 |
|
[InLX]2- 0 |
|
[InL2X]2- 0 |
|
[InL3X]2- 0 |
|
[InL4X]2- 0 |
|
[InL5X]2- 0 |
|
[InL6X]2- 0 |
|
[InL7X]2- 0 |
|
[InL8X]2- 0 |
| X+2Z = 2 | |
[InZ]2- 0 |
|
[InX2]2- 0 |
|
[InLX2]2- 0 |
|
[InL2X2]2- 0 |
|
[InL3X2]2- 0 |
|
[InL4X2]2- 0 |
|
[InL5X2]2- 0 |
|
[InL6X2]2- 0 |
|
[InL7X2]2- 0 |
|
| X+2Z = 3 | [InZ2]2- 0 |
|
[InXZ]2- 0 |
|
[InX3]2- 0 |
|
[InLX3]2- 0 |
|
[InL2X3]2- 0 |
|
[InL3X3]2- 0 |
|
[InL4X3]2- 0 |
|
[InL5X3]2- 0 |
|
[InL6X3]2- 0 |
|
[InL7X3]2- 0 |
| X+2Z = 4 | |
[InZ2]2- 0 |
|
[InX2Z]2- 0 |
|
[InX4]2- 0 |
|
[InLX4]2- 0 |
|
[InL2X4]2- 0 |
|
[InL3X4]2- 0 |
|
[InL4X4]2- 0 |
|
[InL5X4]2- 0 |
|
[InL6X4]2- 0 |
|
| X+2Z = 5 | [InZ3]2- 0 |
|
[InXZ2]2- 7% |
|
[InX3Z]2- 33% |
|
[InX5]2- 33% |
|
[InLX5]2- 27% |
|
[InL2X5]2- 0 |
|
[InL3X5]2- 0 |
|
[InL4X5]2- 0 |
|
[InL5X5]2- 0 |
|
[InL6X5]2- 0 |
| X+2Z = 6 | |
[InZ3]2- 0 |
|
[InX2Z2]2- 0 |
|
[InX4Z]2- 0 |
|
[InX6]2- 0 |
|
[InLX6]2- 0 |
|
[InL2X6]2- 0 |
|
[InL3X6]2- 0 |
|
[InL4X6]2- 0 |
|
[InL5X6]2- 0 |
|
| X+2Z = 7 | [InZ4]2- 0 |
|
[InXZ3]2- 0 |
|
[InX3Z2]2- 0 |
|
[InX5Z]2- 0 |
|
[InX7]2- 0 |
|
[InLX7]2- 0 |
|
[InL2X7]2- 0 |
|
[InL3X7]2- 0 |
|
[InL4X7]2- 0 |
|
[InL5X7]2- 0 |
| X+2Z = 8 | |
[InZ4]2- 0 |
|
[InX2Z3]2- 0 |
|
[InX4Z2]2- 0 |
|
[InX6Z]2- 0 |
|
[InX8]2- 0 |
|
[InLX8]2- 0 |
|
[InL2X8]2- 0 |
|
[InL3X8]2- 0 |
|
[InL4X8]2- 0 |
|
| X+2Z = 9 | [InZ5]2- 0 |
|
[InXZ4]2- 0 |
|
[InX3Z3]2- 0 |
|
[InX5Z2]2- 0 |
|
[InX7Z]2- 0 |
|
[InX9]2- 0 |
|
[InLX9]2- 0 |
|
[InL2X9]2- 0 |
|
[InL3X9]2- 0 |
|
[InL4X9]2- 0 |
| X+2Z = 10 | |
[InZ5]2- 0 |
|
[InX2Z4]2- 0 |
|
[InX4Z3]2- 0 |
|
[InX6Z2]2- 0 |
|
[InX8Z]2- 0 |
|
[InX10]2- 0 |
|
[InLX10]2- 0 |
|
[InL2X10]2- 0 |
|
[InL3X10]2- 0 |
|
| X+2Z = 11 | [InZ6]2- 0 |
|
[InXZ5]2- 0 |
|
[InX3Z4]2- 0 |
|
[InX5Z3]2- 0 |
|
[InX7Z2]2- 0 |
|
[InX9Z]2- 0 |
|
[InX11]2- 0 |
|
[InLX11]2- 0 |
|
[InL2X11]2- 0 |
|
[InL3X11]2- 0 |
| X+2Z = 12 | |
[InZ6]2- 0 |
|
[InX2Z5]2- 0 |
|
[InX4Z4]2- 0 |
|
[InX6Z3]2- 0 |
|
[InX8Z2]2- 0 |
|
[InX10Z]2- 0 |
|
[InX12]2- 0 |
|
[InLX12]2- 0 |
|
[InL2X12]2- 0 |
|
MLXZq± grid for indium (In) for Q = -1: [InXxLlZz]-
The number of compounds found is 70.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of indium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [In]- 0 |
|
[InL]- 0 |
|
[InL2]- 0 |
|
[InL3]- 0 |
|
[InL4]- 0 |
|
[InL5]- 0 |
|
[InL6]- 0 |
|
[InL7]- 0 |
|
[InL8]- 0 |
|
[InL9]- 0 |
| X+2Z = 1 | |
[InX]- 0 |
|
[InLX]- 0 |
|
[InL2X]- 0 |
|
[InL3X]- 0 |
|
[InL4X]- 0 |
|
[InL5X]- 0 |
|
[InL6X]- 0 |
|
[InL7X]- 0 |
|
[InL8X]- 0 |
|
| X+2Z = 2 | [InZ]- 0 |
|
[InX2]- 3% |
|
[InLX2]- 0 |
|
[InL2X2]- 0 |
|
[InL3X2]- 0 |
|
[InL4X2]- 0 |
|
[InL5X2]- 0 |
|
[InL6X2]- 0 |
|
[InL7X2]- 0 |
|
[InL8X2]- 0 |
| X+2Z = 3 | |
[InXZ]- 0 |
|
[InX3]- 0 |
|
[InLX3]- 0 |
|
[InL2X3]- 0 |
|
[InL3X3]- 0 |
|
[InL4X3]- 0 |
|
[InL5X3]- 0 |
|
[InL6X3]- 0 |
|
[InL7X3]- 0 |
|
| X+2Z = 4 | [InZ2]- 0 |
|
[InX2Z]- 0 |
|
[InX4]- 79% |
|
[InLX4]- 0 |
|
[InL2X4]- 13% |
|
[InL3X4]- 1% |
|
[InL4X4]- 4% |
|
[InL5X4]- 0 |
|
[InL6X4]- 0 |
|
[InL7X4]- 0 |
| X+2Z = 5 | |
[InXZ2]- 0 |
|
[InX3Z]- 0 |
|
[InX5]- 0 |
|
[InLX5]- 0 |
|
[InL2X5]- 0 |
|
[InL3X5]- 0 |
|
[InL4X5]- 0 |
|
[InL5X5]- 0 |
|
[InL6X5]- 0 |
|
| X+2Z = 6 | [InZ3]- 0 |
|
[InX2Z2]- 0 |
|
[InX4Z]- 0 |
|
[InX6]- 0 |
|
[InLX6]- 0 |
|
[InL2X6]- 0 |
|
[InL3X6]- 0 |
|
[InL4X6]- 0 |
|
[InL5X6]- 0 |
|
[InL6X6]- 0 |
| X+2Z = 7 | |
[InXZ3]- 0 |
|
[InX3Z2]- 0 |
|
[InX5Z]- 0 |
|
[InX7]- 0 |
|
[InLX7]- 0 |
|
[InL2X7]- 0 |
|
[InL3X7]- 0 |
|
[InL4X7]- 0 |
|
[InL5X7]- 0 |
|
| X+2Z = 8 | [InZ4]- 0 |
|
[InX2Z3]- 0 |
|
[InX4Z2]- 0 |
|
[InX6Z]- 0 |
|
[InX8]- 0 |
|
[InLX8]- 0 |
|
[InL2X8]- 0 |
|
[InL3X8]- 0 |
|
[InL4X8]- 0 |
|
[InL5X8]- 0 |
| X+2Z = 9 | |
[InXZ4]- 0 |
|
[InX3Z3]- 0 |
|
[InX5Z2]- 0 |
|
[InX7Z]- 0 |
|
[InX9]- 0 |
|
[InLX9]- 0 |
|
[InL2X9]- 0 |
|
[InL3X9]- 0 |
|
[InL4X9]- 0 |
|
| X+2Z = 10 | [InZ5]- 0 |
|
[InX2Z4]- 0 |
|
[InX4Z3]- 0 |
|
[InX6Z2]- 0 |
|
[InX8Z]- 0 |
|
[InX10]- 0 |
|
[InLX10]- 0 |
|
[InL2X10]- 0 |
|
[InL3X10]- 0 |
|
[InL4X10]- 0 |
| X+2Z = 11 | |
[InXZ5]- 0 |
|
[InX3Z4]- 0 |
|
[InX5Z3]- 0 |
|
[InX7Z2]- 0 |
|
[InX9Z]- 0 |
|
[InX11]- 0 |
|
[InLX11]- 0 |
|
[InL2X11]- 0 |
|
[InL3X11]- 0 |
|
| X+2Z = 12 | [InZ6]- 0 |
|
[InX2Z5]- 0 |
|
[InX4Z4]- 0 |
|
[InX6Z3]- 0 |
|
[InX8Z2]- 0 |
|
[InX10Z]- 0 |
|
[InX12]- 0 |
|
[InLX12]- 0 |
|
[InL2X12]- 0 |
|
[InL3X12]- 0 |
MLXZq± grid for indium (In) for Q = 0: [InXxLlZz]
The number of compounds found is 398.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of indium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[InL] 0 |
|
[InL2] 0 |
|
[InL3] 0 |
|
[InL4] 0 |
|
[InL5] 0 |
|
[InL6] 0 |
|
[InL7] 0 |
|
[InL8] 0 |
|
[InL9] 0 |
|
| X+2Z = 1 | [InX] 0.3% |
|
[InLX] 0 |
|
[InL2X] 2% |
|
[InL3X] 0 |
|
[InL4X] 0.3% |
|
[InL5X] 0.3% |
|
[InL6X] 1% |
|
[InL7X] 0 |
|
[InL8X] 0 |
|
[InL9X] 0 |
| X+2Z = 2 | |
[InX2] 0 |
|
[InLX2] 0 |
|
[InL2X2] 0 |
|
[InL3X2] 0 |
|
[InL4X2] 0 |
|
[InL5X2] 0 |
|
[InL6X2] 0 |
|
[InL7X2] 0 |
|
[InL8X2] 0 |
|
| X+2Z = 3 | [InXZ] 1% |
|
[InX3] 14% |
|
[InLX3] 49% |
|
[InL2X3] 16% |
|
[InL3X3] 17% |
|
[InL4X3] 1% |
|
[InL5X3] 2% |
|
[InL6X3] 0 |
|
[InL7X3] 0 |
|
[InL8X3] 0 |
| X+2Z = 4 | |
[InX2Z] 0 |
|
[InX4] 0 |
|
[InLX4] 0 |
|
[InL2X4] 0 |
|
[InL3X4] 0 |
|
[InL4X4] 0 |
|
[InL5X4] 0 |
|
[InL6X4] 0 |
|
[InL7X4] 0 |
|
| X+2Z = 5 | [InXZ2] 0 |
|
[InX3Z] 0 |
|
[InX5] 0 |
|
[InLX5] 0 |
|
[InL2X5] 0 |
|
[InL3X5] 0 |
|
[InL4X5] 0 |
|
[InL5X5] 0 |
|
[InL6X5] 0 |
|
[InL7X5] 0 |
| X+2Z = 6 | |
[InX2Z2] 0 |
|
[InX4Z] 0 |
|
[InX6] 0 |
|
[InLX6] 0 |
|
[InL2X6] 0 |
|
[InL3X6] 0 |
|
[InL4X6] 0 |
|
[InL5X6] 0 |
|
[InL6X6] 0 |
|
| X+2Z = 7 | [InXZ3] 0 |
|
[InX3Z2] 0 |
|
[InX5Z] 0 |
|
[InX7] 0 |
|
[InLX7] 0 |
|
[InL2X7] 0 |
|
[InL3X7] 0 |
|
[InL4X7] 0 |
|
[InL5X7] 0 |
|
[InL6X7] 0 |
| X+2Z = 8 | |
[InX2Z3] 0 |
|
[InX4Z2] 0 |
|
[InX6Z] 0 |
|
[InX8] 0 |
|
[InLX8] 0 |
|
[InL2X8] 0 |
|
[InL3X8] 0 |
|
[InL4X8] 0 |
|
[InL5X8] 0 |
|
| X+2Z = 9 | [InXZ4] 0 |
|
[InX3Z3] 0 |
|
[InX5Z2] 0 |
|
[InX7Z] 0 |
|
[InX9] 0 |
|
[InLX9] 0 |
|
[InL2X9] 0 |
|
[InL3X9] 0 |
|
[InL4X9] 0 |
|
[InL5X9] 0 |
| X+2Z = 10 | |
[InX2Z4] 0 |
|
[InX4Z3] 0 |
|
[InX6Z2] 0 |
|
[InX8Z] 0 |
|
[InX10] 0 |
|
[InLX10] 0 |
|
[InL2X10] 0 |
|
[InL3X10] 0 |
|
[InL4X10] 0 |
|
| X+2Z = 11 | [InXZ5] 0 |
|
[InX3Z4] 0 |
|
[InX5Z3] 0 |
|
[InX7Z2] 0 |
|
[InX9Z] 0 |
|
[InX11] 0 |
|
[InLX11] 0 |
|
[InL2X11] 0 |
|
[InL3X11] 0 |
|
[InL4X11] 0 |
| X+2Z = 12 | |
[InX2Z5] 0 |
|
[InX4Z4] 0 |
|
[InX6Z3] 0 |
|
[InX8Z2] 0 |
|
[InX10Z] 0 |
|
[InX12] 0 |
|
[InLX12] 0 |
|
[InL2X12] 0 |
|
[InL3X12] 0 |
|
MLXZq± grid for indium (In) for Q = 1: [InXxLlZz]+
The number of compounds found is 35.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of indium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [InL]+ 0 |
|
[InL2]+ 3% |
|
[InL3]+ 6% |
|
[InL4]+ 0 |
|
[InL5]+ 0 |
|
[InL6]+ 0 |
|
[InL7]+ 0 |
|
[InL8]+ 0 |
|
[InL9]+ 0 |
|
[InL10]+ 3% |
| X+2Z = 1 | |
[InLX]+ 0 |
|
[InL2X]+ 0 |
|
[InL3X]+ 0 |
|
[InL4X]+ 0 |
|
[InL5X]+ 0 |
|
[InL6X]+ 0 |
|
[InL7X]+ 0 |
|
[InL8X]+ 0 |
|
[InL9X]+ 0 |
|
| X+2Z = 2 | [InX2]+ 0 |
|
[InLX2]+ 0 |
|
[InL2X2]+ 20% |
|
[InL3X2]+ 9% |
|
[InL4X2]+ 60% |
|
[InL5X2]+ 0 |
|
[InL6X2]+ 0 |
|
[InL7X2]+ 0 |
|
[InL8X2]+ 0 |
|
[InL9X2]+ 0 |
| X+2Z = 3 | |
[InX3]+ 0 |
|
[InLX3]+ 0 |
|
[InL2X3]+ 0 |
|
[InL3X3]+ 0 |
|
[InL4X3]+ 0 |
|
[InL5X3]+ 0 |
|
[InL6X3]+ 0 |
|
[InL7X3]+ 0 |
|
[InL8X3]+ 0 |
|
| X+2Z = 4 | [InX2Z]+ 0 |
|
[InX4]+ 0 |
|
[InLX4]+ 0 |
|
[InL2X4]+ 0 |
|
[InL3X4]+ 0 |
|
[InL4X4]+ 0 |
|
[InL5X4]+ 0 |
|
[InL6X4]+ 0 |
|
[InL7X4]+ 0 |
|
[InL8X4]+ 0 |
| X+2Z = 5 | |
[InX3Z]+ 0 |
|
[InX5]+ 0 |
|
[InLX5]+ 0 |
|
[InL2X5]+ 0 |
|
[InL3X5]+ 0 |
|
[InL4X5]+ 0 |
|
[InL5X5]+ 0 |
|
[InL6X5]+ 0 |
|
[InL7X5]+ 0 |
|
| X+2Z = 6 | [InX2Z2]+ 0 |
|
[InX4Z]+ 0 |
|
[InX6]+ 0 |
|
[InLX6]+ 0 |
|
[InL2X6]+ 0 |
|
[InL3X6]+ 0 |
|
[InL4X6]+ 0 |
|
[InL5X6]+ 0 |
|
[InL6X6]+ 0 |
|
[InL7X6]+ 0 |
| X+2Z = 7 | |
[InX3Z2]+ 0 |
|
[InX5Z]+ 0 |
|
[InX7]+ 0 |
|
[InLX7]+ 0 |
|
[InL2X7]+ 0 |
|
[InL3X7]+ 0 |
|
[InL4X7]+ 0 |
|
[InL5X7]+ 0 |
|
[InL6X7]+ 0 |
|
| X+2Z = 8 | [InX2Z3]+ 0 |
|
[InX4Z2]+ 0 |
|
[InX6Z]+ 0 |
|
[InX8]+ 0 |
|
[InLX8]+ 0 |
|
[InL2X8]+ 0 |
|
[InL3X8]+ 0 |
|
[InL4X8]+ 0 |
|
[InL5X8]+ 0 |
|
[InL6X8]+ 0 |
| X+2Z = 9 | |
[InX3Z3]+ 0 |
|
[InX5Z2]+ 0 |
|
[InX7Z]+ 0 |
|
[InX9]+ 0 |
|
[InLX9]+ 0 |
|
[InL2X9]+ 0 |
|
[InL3X9]+ 0 |
|
[InL4X9]+ 0 |
|
[InL5X9]+ 0 |
|
| X+2Z = 10 | [InX2Z4]+ 0 |
|
[InX4Z3]+ 0 |
|
[InX6Z2]+ 0 |
|
[InX8Z]+ 0 |
|
[InX10]+ 0 |
|
[InLX10]+ 0 |
|
[InL2X10]+ 0 |
|
[InL3X10]+ 0 |
|
[InL4X10]+ 0 |
|
[InL5X10]+ 0 |
| X+2Z = 11 | |
[InX3Z4]+ 0 |
|
[InX5Z3]+ 0 |
|
[InX7Z2]+ 0 |
|
[InX9Z]+ 0 |
|
[InX11]+ 0 |
|
[InLX11]+ 0 |
|
[InL2X11]+ 0 |
|
[InL3X11]+ 0 |
|
[InL4X11]+ 0 |
|
| X+2Z = 12 | [InX2Z5]+ 0 |
|
[InX4Z4]+ 0 |
|
[InX6Z3]+ 0 |
|
[InX8Z2]+ 0 |
|
[InX10Z]+ 0 |
|
[InX12]+ 0 |
|
[InLX12]+ 0 |
|
[InL2X12]+ 0 |
|
[InL3X12]+ 0 |
|
[InL4X12]+ 0 |
MLXZq± grid for indium (In) for Q = 2: [InXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for indium (In) for Q = 3: [InXxLlZz]3+
The number of compounds found is 5.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of indium with that [MLXZ]q± classification.
| EN➝ | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [InL2]3+ 0 |
|
[InL3]3+ 0 |
|
[InL4]3+ 0 |
|
[InL5]3+ 0 |
|
[InL6]3+ 80% |
|
[InL7]3+ 0 |
|
[InL8]3+ 20% |
|
[InL9]3+ 0 |
|
[InL10]3+ 0 |
|
[InL11]3+ 0 |
| X+2Z = 1 | |
[InL2X]3+ 0 |
|
[InL3X]3+ 0 |
|
[InL4X]3+ 0 |
|
[InL5X]3+ 0 |
|
[InL6X]3+ 0 |
|
[InL7X]3+ 0 |
|
[InL8X]3+ 0 |
|
[InL9X]3+ 0 |
|
[InL10X]3+ 0 |
|
| X+2Z = 2 | [InLX2]3+ 0 |
|
[InL2X2]3+ 0 |
|
[InL3X2]3+ 0 |
|
[InL4X2]3+ 0 |
|
[InL5X2]3+ 0 |
|
[InL6X2]3+ 0 |
|
[InL7X2]3+ 0 |
|
[InL8X2]3+ 0 |
|
[InL9X2]3+ 0 |
|
[InL10X2]3+ 0 |
| X+2Z = 3 | |
[InLX3]3+ 0 |
|
[InL2X3]3+ 0 |
|
[InL3X3]3+ 0 |
|
[InL4X3]3+ 0 |
|
[InL5X3]3+ 0 |
|
[InL6X3]3+ 0 |
|
[InL7X3]3+ 0 |
|
[InL8X3]3+ 0 |
|
[InL9X3]3+ 0 |
|
| X+2Z = 4 | [InX4]3+ 0 |
|
[InLX4]3+ 0 |
|
[InL2X4]3+ 0 |
|
[InL3X4]3+ 0 |
|
[InL4X4]3+ 0 |
|
[InL5X4]3+ 0 |
|
[InL6X4]3+ 0 |
|
[InL7X4]3+ 0 |
|
[InL8X4]3+ 0 |
|
[InL9X4]3+ 0 |
| X+2Z = 5 | |
[InX5]3+ 0 |
|
[InLX5]3+ 0 |
|
[InL2X5]3+ 0 |
|
[InL3X5]3+ 0 |
|
[InL4X5]3+ 0 |
|
[InL5X5]3+ 0 |
|
[InL6X5]3+ 0 |
|
[InL7X5]3+ 0 |
|
[InL8X5]3+ 0 |
|
| X+2Z = 6 | [InX4Z]3+ 0 |
|
[InX6]3+ 0 |
|
[InLX6]3+ 0 |
|
[InL2X6]3+ 0 |
|
[InL3X6]3+ 0 |
|
[InL4X6]3+ 0 |
|
[InL5X6]3+ 0 |
|
[InL6X6]3+ 0 |
|
[InL7X6]3+ 0 |
|
[InL8X6]3+ 0 |
| X+2Z = 7 | |
[InX5Z]3+ 0 |
|
[InX7]3+ 0 |
|
[InLX7]3+ 0 |
|
[InL2X7]3+ 0 |
|
[InL3X7]3+ 0 |
|
[InL4X7]3+ 0 |
|
[InL5X7]3+ 0 |
|
[InL6X7]3+ 0 |
|
[InL7X7]3+ 0 |
|
| X+2Z = 8 | [InX4Z2]3+ 0 |
|
[InX6Z]3+ 0 |
|
[InX8]3+ 0 |
|
[InLX8]3+ 0 |
|
[InL2X8]3+ 0 |
|
[InL3X8]3+ 0 |
|
[InL4X8]3+ 0 |
|
[InL5X8]3+ 0 |
|
[InL6X8]3+ 0 |
|
[InL7X8]3+ 0 |
| X+2Z = 9 | |
[InX5Z2]3+ 0 |
|
[InX7Z]3+ 0 |
|
[InX9]3+ 0 |
|
[InLX9]3+ 0 |
|
[InL2X9]3+ 0 |
|
[InL3X9]3+ 0 |
|
[InL4X9]3+ 0 |
|
[InL5X9]3+ 0 |
|
[InL6X9]3+ 0 |
|
| X+2Z = 10 | [InX4Z3]3+ 0 |
|
[InX6Z2]3+ 0 |
|
[InX8Z]3+ 0 |
|
[InX10]3+ 0 |
|
[InLX10]3+ 0 |
|
[InL2X10]3+ 0 |
|
[InL3X10]3+ 0 |
|
[InL4X10]3+ 0 |
|
[InL5X10]3+ 0 |
|
[InL6X10]3+ 0 |
| X+2Z = 11 | |
[InX5Z3]3+ 0 |
|
[InX7Z2]3+ 0 |
|
[InX9Z]3+ 0 |
|
[InX11]3+ 0 |
|
[InLX11]3+ 0 |
|
[InL2X11]3+ 0 |
|
[InL3X11]3+ 0 |
|
[InL4X11]3+ 0 |
|
[InL5X11]3+ 0 |
|
| X+2Z = 12 | [InX4Z4]3+ 0 |
|
[InX6Z3]3+ 0 |
|
[InX8Z2]3+ 0 |
|
[InX10Z]3+ 0 |
|
[InX12]3+ 0 |
|
[InLX12]3+ 0 |
|
[InL2X12]3+ 0 |
|
[InL3X12]3+ 0 |
|
[InL4X12]3+ 0 |
|
[InL5X12]3+ 0 |
MLXZq± grid for indium (In) for Q = 4: [InXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for tin (Sn) for Q = -6: [SnXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for tin (Sn) for Q = -5: [SnXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for tin (Sn) for Q = -4: [SnXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for tin (Sn) for Q = -3: [SnXxLlZz]3-
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tin with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[Sn]3- 0 |
|
[SnL]3- 0 |
|
[SnL2]3- 0 |
|
[SnL3]3- 0 |
|
[SnL4]3- 0 |
|
[SnL5]3- 0 |
|
[SnL6]3- 0 |
|
[SnL7]3- 0 |
|
| X+2Z = 1 | [SnZ]3- 0 |
|
[SnX]3- 0 |
|
[SnLX]3- 0 |
|
[SnL2X]3- 0 |
|
[SnL3X]3- 0 |
|
[SnL4X]3- 0 |
|
[SnL5X]3- 0 |
|
[SnL6X]3- 0 |
|
[SnL7X]3- 0 |
| X+2Z = 2 | |
[SnZ]3- 0 |
|
[SnX2]3- 0 |
|
[SnLX2]3- 0 |
|
[SnL2X2]3- 0 |
|
[SnL3X2]3- 0 |
|
[SnL4X2]3- 0 |
|
[SnL5X2]3- 0 |
|
[SnL6X2]3- 0 |
|
| X+2Z = 3 | [SnZ2]3- 0 |
|
[SnXZ]3- 0 |
|
[SnX3]3- 0 |
|
[SnLX3]3- 0 |
|
[SnL2X3]3- 0 |
|
[SnL3X3]3- 0 |
|
[SnL4X3]3- 0 |
|
[SnL5X3]3- 0 |
|
[SnL6X3]3- 0 |
| X+2Z = 4 | |
[SnZ2]3- 0 |
|
[SnX2Z]3- 0 |
|
[SnX4]3- 0 |
|
[SnLX4]3- 0 |
|
[SnL2X4]3- 0 |
|
[SnL3X4]3- 0 |
|
[SnL4X4]3- 0 |
|
[SnL5X4]3- 0 |
|
| X+2Z = 5 | [SnZ3]3- 0 |
|
[SnXZ2]3- 0 |
|
[SnX3Z]3- 0 |
|
[SnX5]3- 0 |
|
[SnLX5]3- 100% |
|
[SnL2X5]3- 0 |
|
[SnL3X5]3- 0 |
|
[SnL4X5]3- 0 |
|
[SnL5X5]3- 0 |
| X+2Z = 6 | |
[SnZ3]3- 0 |
|
[SnX2Z2]3- 0 |
|
[SnX4Z]3- 0 |
|
[SnX6]3- 0 |
|
[SnLX6]3- 0 |
|
[SnL2X6]3- 0 |
|
[SnL3X6]3- 0 |
|
[SnL4X6]3- 0 |
|
| X+2Z = 7 | [SnZ4]3- 0 |
|
[SnXZ3]3- 0 |
|
[SnX3Z2]3- 0 |
|
[SnX5Z]3- 0 |
|
[SnX7]3- 0 |
|
[SnLX7]3- 0 |
|
[SnL2X7]3- 0 |
|
[SnL3X7]3- 0 |
|
[SnL4X7]3- 0 |
| X+2Z = 8 | |
[SnZ4]3- 0 |
|
[SnX2Z3]3- 0 |
|
[SnX4Z2]3- 0 |
|
[SnX6Z]3- 0 |
|
[SnX8]3- 0 |
|
[SnLX8]3- 0 |
|
[SnL2X8]3- 0 |
|
[SnL3X8]3- 0 |
|
| X+2Z = 9 | [SnZ5]3- 0 |
|
[SnXZ4]3- 0 |
|
[SnX3Z3]3- 0 |
|
[SnX5Z2]3- 0 |
|
[SnX7Z]3- 0 |
|
[SnX9]3- 0 |
|
[SnLX9]3- 0 |
|
[SnL2X9]3- 0 |
|
[SnL3X9]3- 0 |
| X+2Z = 10 | |
[SnZ5]3- 0 |
|
[SnX2Z4]3- 0 |
|
[SnX4Z3]3- 0 |
|
[SnX6Z2]3- 0 |
|
[SnX8Z]3- 0 |
|
[SnX10]3- 0 |
|
[SnLX10]3- 0 |
|
[SnL2X10]3- 0 |
|
| X+2Z = 11 | [SnZ6]3- 0 |
|
[SnXZ5]3- 0 |
|
[SnX3Z4]3- 0 |
|
[SnX5Z3]3- 0 |
|
[SnX7Z2]3- 0 |
|
[SnX9Z]3- 0 |
|
[SnX11]3- 0 |
|
[SnLX11]3- 0 |
|
[SnL2X11]3- 0 |
| X+2Z = 12 | |
[SnZ6]3- 0 |
|
[SnX2Z5]3- 0 |
|
[SnX4Z4]3- 0 |
|
[SnX6Z3]3- 0 |
|
[SnX8Z2]3- 0 |
|
[SnX10Z]3- 0 |
|
[SnX12]3- 0 |
|
[SnLX12]3- 0 |
|
MLXZq± grid for tin (Sn) for Q = -2: [SnXxLlZz]2-
The number of compounds found is 52.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tin with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Sn]2- 0 |
|
[SnL]2- 0 |
|
[SnL2]2- 0 |
|
[SnL3]2- 0 |
|
[SnL4]2- 0 |
|
[SnL5]2- 0 |
|
[SnL6]2- 0 |
|
[SnL7]2- 0 |
|
[SnL8]2- 0 |
| X+2Z = 1 | |
[SnX]2- 0 |
|
[SnLX]2- 0 |
|
[SnL2X]2- 0 |
|
[SnL3X]2- 0 |
|
[SnL4X]2- 0 |
|
[SnL5X]2- 0 |
|
[SnL6X]2- 0 |
|
[SnL7X]2- 0 |
|
| X+2Z = 2 | [SnZ]2- 0 |
|
[SnX2]2- 0 |
|
[SnLX2]2- 0 |
|
[SnL2X2]2- 0 |
|
[SnL3X2]2- 0 |
|
[SnL4X2]2- 0 |
|
[SnL5X2]2- 0 |
|
[SnL6X2]2- 0 |
|
[SnL7X2]2- 0 |
| X+2Z = 3 | |
[SnXZ]2- 0 |
|
[SnX3]2- 0 |
|
[SnLX3]2- 0 |
|
[SnL2X3]2- 0 |
|
[SnL3X3]2- 0 |
|
[SnL4X3]2- 0 |
|
[SnL5X3]2- 0 |
|
[SnL6X3]2- 0 |
|
| X+2Z = 4 | [SnZ2]2- 0 |
|
[SnX2Z]2- 0 |
|
[SnX4]2- 8% |
|
[SnLX4]2- 0 |
|
[SnL2X4]2- 4% |
|
[SnL3X4]2- 0 |
|
[SnL4X4]2- 0 |
|
[SnL5X4]2- 0 |
|
[SnL6X4]2- 0 |
| X+2Z = 5 | |
[SnXZ2]2- 0 |
|
[SnX3Z]2- 0 |
|
[SnX5]2- 0 |
|
[SnLX5]2- 0 |
|
[SnL2X5]2- 0 |
|
[SnL3X5]2- 0 |
|
[SnL4X5]2- 0 |
|
[SnL5X5]2- 0 |
|
| X+2Z = 6 | [SnZ3]2- 0 |
|
[SnX2Z2]2- 12% |
|
[SnX4Z]2- 0 |
|
[SnX6]2- 73% |
|
[SnLX6]2- 2% |
|
[SnL2X6]2- 2% |
|
[SnL3X6]2- 0 |
|
[SnL4X6]2- 0 |
|
[SnL5X6]2- 0 |
| X+2Z = 7 | |
[SnXZ3]2- 0 |
|
[SnX3Z2]2- 0 |
|
[SnX5Z]2- 0 |
|
[SnX7]2- 0 |
|
[SnLX7]2- 0 |
|
[SnL2X7]2- 0 |
|
[SnL3X7]2- 0 |
|
[SnL4X7]2- 0 |
|
| X+2Z = 8 | [SnZ4]2- 0 |
|
[SnX2Z3]2- 0 |
|
[SnX4Z2]2- 0 |
|
[SnX6Z]2- 0 |
|
[SnX8]2- 0 |
|
[SnLX8]2- 0 |
|
[SnL2X8]2- 0 |
|
[SnL3X8]2- 0 |
|
[SnL4X8]2- 0 |
| X+2Z = 9 | |
[SnXZ4]2- 0 |
|
[SnX3Z3]2- 0 |
|
[SnX5Z2]2- 0 |
|
[SnX7Z]2- 0 |
|
[SnX9]2- 0 |
|
[SnLX9]2- 0 |
|
[SnL2X9]2- 0 |
|
[SnL3X9]2- 0 |
|
| X+2Z = 10 | [SnZ5]2- 0 |
|
[SnX2Z4]2- 0 |
|
[SnX4Z3]2- 0 |
|
[SnX6Z2]2- 0 |
|
[SnX8Z]2- 0 |
|
[SnX10]2- 0 |
|
[SnLX10]2- 0 |
|
[SnL2X10]2- 0 |
|
[SnL3X10]2- 0 |
| X+2Z = 11 | |
[SnXZ5]2- 0 |
|
[SnX3Z4]2- 0 |
|
[SnX5Z3]2- 0 |
|
[SnX7Z2]2- 0 |
|
[SnX9Z]2- 0 |
|
[SnX11]2- 0 |
|
[SnLX11]2- 0 |
|
[SnL2X11]2- 0 |
|
| X+2Z = 12 | [SnZ6]2- 0 |
|
[SnX2Z5]2- 0 |
|
[SnX4Z4]2- 0 |
|
[SnX6Z3]2- 0 |
|
[SnX8Z2]2- 0 |
|
[SnX10Z]2- 0 |
|
[SnX12]2- 0 |
|
[SnLX12]2- 0 |
|
[SnL2X12]2- 0 |
MLXZq± grid for tin (Sn) for Q = -1: [SnXxLlZz]-
The number of compounds found is 63.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tin with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[SnL]- 0 |
|
[SnL2]- 0 |
|
[SnL3]- 0 |
|
[SnL4]- 0 |
|
[SnL5]- 0 |
|
[SnL6]- 0 |
|
[SnL7]- 0 |
|
[SnL8]- 0 |
|
| X+2Z = 1 | [SnX]- 0 |
|
[SnLX]- 0 |
|
[SnL2X]- 0 |
|
[SnL3X]- 0 |
|
[SnL4X]- 0 |
|
[SnL5X]- 0 |
|
[SnL6X]- 0 |
|
[SnL7X]- 0 |
|
[SnL8X]- 0 |
| X+2Z = 2 | |
[SnX2]- 2% |
|
[SnLX2]- 0 |
|
[SnL2X2]- 0 |
|
[SnL3X2]- 0 |
|
[SnL4X2]- 0 |
|
[SnL5X2]- 0 |
|
[SnL6X2]- 0 |
|
[SnL7X2]- 0 |
|
| X+2Z = 3 | [SnXZ]- 0 |
|
[SnX3]- 27% |
|
[SnLX3]- 3% |
|
[SnL2X3]- 0 |
|
[SnL3X3]- 2% |
|
[SnL4X3]- 0 |
|
[SnL5X3]- 0 |
|
[SnL6X3]- 0 |
|
[SnL7X3]- 0 |
| X+2Z = 4 | |
[SnX2Z]- 0 |
|
[SnX4]- 0 |
|
[SnLX4]- 0 |
|
[SnL2X4]- 0 |
|
[SnL3X4]- 0 |
|
[SnL4X4]- 0 |
|
[SnL5X4]- 0 |
|
[SnL6X4]- 0 |
|
| X+2Z = 5 | [SnXZ2]- 0 |
|
[SnX3Z]- 2% |
|
[SnX5]- 44% |
|
[SnLX5]- 14% |
|
[SnL2X5]- 5% |
|
[SnL3X5]- 2% |
|
[SnL4X5]- 0 |
|
[SnL5X5]- 0 |
|
[SnL6X5]- 0 |
| X+2Z = 6 | |
[SnX2Z2]- 0 |
|
[SnX4Z]- 0 |
|
[SnX6]- 0 |
|
[SnLX6]- 0 |
|
[SnL2X6]- 0 |
|
[SnL3X6]- 0 |
|
[SnL4X6]- 0 |
|
[SnL5X6]- 0 |
|
| X+2Z = 7 | [SnXZ3]- 0 |
|
[SnX3Z2]- 0 |
|
[SnX5Z]- 0 |
|
[SnX7]- 0 |
|
[SnLX7]- 0 |
|
[SnL2X7]- 0 |
|
[SnL3X7]- 0 |
|
[SnL4X7]- 0 |
|
[SnL5X7]- 0 |
| X+2Z = 8 | |
[SnX2Z3]- 0 |
|
[SnX4Z2]- 0 |
|
[SnX6Z]- 0 |
|
[SnX8]- 0 |
|
[SnLX8]- 0 |
|
[SnL2X8]- 0 |
|
[SnL3X8]- 0 |
|
[SnL4X8]- 0 |
|
| X+2Z = 9 | [SnXZ4]- 0 |
|
[SnX3Z3]- 0 |
|
[SnX5Z2]- 0 |
|
[SnX7Z]- 0 |
|
[SnX9]- 0 |
|
[SnLX9]- 0 |
|
[SnL2X9]- 0 |
|
[SnL3X9]- 0 |
|
[SnL4X9]- 0 |
| X+2Z = 10 | |
[SnX2Z4]- 0 |
|
[SnX4Z3]- 0 |
|
[SnX6Z2]- 0 |
|
[SnX8Z]- 0 |
|
[SnX10]- 0 |
|
[SnLX10]- 0 |
|
[SnL2X10]- 0 |
|
[SnL3X10]- 0 |
|
| X+2Z = 11 | [SnXZ5]- 0 |
|
[SnX3Z4]- 0 |
|
[SnX5Z3]- 0 |
|
[SnX7Z2]- 0 |
|
[SnX9Z]- 0 |
|
[SnX11]- 0 |
|
[SnLX11]- 0 |
|
[SnL2X11]- 0 |
|
[SnL3X11]- 0 |
| X+2Z = 12 | |
[SnX2Z5]- 0 |
|
[SnX4Z4]- 0 |
|
[SnX6Z3]- 0 |
|
[SnX8Z2]- 0 |
|
[SnX10Z]- 0 |
|
[SnX12]- 0 |
|
[SnLX12]- 0 |
|
[SnL2X12]- 0 |
|
MLXZq± grid for tin (Sn) for Q = 0: [SnXxLlZz]
The number of compounds found is 635.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tin with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [SnL] 0 |
|
[SnL2] 0 |
|
[SnL3] 0 |
|
[SnL4] 0 |
|
[SnL5] 0 |
|
[SnL6] 0 |
|
[SnL7] 0 |
|
[SnL8] 0 |
|
[SnL9] 0 |
| X+2Z = 1 | |
[SnLX] 0 |
|
[SnL2X] 0 |
|
[SnL3X] 0 |
|
[SnL4X] 0 |
|
[SnL5X] 0 |
|
[SnL6X] 0 |
|
[SnL7X] 0 |
|
[SnL8X] 0 |
|
| X+2Z = 2 | [SnX2] 3% |
|
[SnLX2] 6% |
|
[SnL2X2] 6% |
|
[SnL3X2] 1% |
|
[SnL4X2] 1% |
|
[SnL5X2] 0 |
|
[SnL6X2] 0 |
|
[SnL7X2] 0 |
|
[SnL8X2] 0 |
| X+2Z = 3 | |
[SnX3] 0 |
|
[SnLX3] 0 |
|
[SnL2X3] 0 |
|
[SnL3X3] 0 |
|
[SnL4X3] 0 |
|
[SnL5X3] 0 |
|
[SnL6X3] 0 |
|
[SnL7X3] 0 |
|
| X+2Z = 4 | [SnX2Z] 0.2% |
|
[SnX4] 47% |
|
[SnLX4] 10% |
|
[SnL2X4] 23% |
|
[SnL3X4] 2% |
|
[SnL4X4] 1% |
|
[SnL5X4] 0 |
|
[SnL6X4] 0 |
|
[SnL7X4] 0 |
| X+2Z = 5 | |
[SnX3Z] 0 |
|
[SnX5] 0 |
|
[SnLX5] 0 |
|
[SnL2X5] 0 |
|
[SnL3X5] 0 |
|
[SnL4X5] 0 |
|
[SnL5X5] 0 |
|
[SnL6X5] 0 |
|
| X+2Z = 6 | [SnX2Z2] 0 |
|
[SnX4Z] 0 |
|
[SnX6] 0 |
|
[SnLX6] 0 |
|
[SnL2X6] 0 |
|
[SnL3X6] 0 |
|
[SnL4X6] 0 |
|
[SnL5X6] 0 |
|
[SnL6X6] 0 |
| X+2Z = 7 | |
[SnX3Z2] 0 |
|
[SnX5Z] 0 |
|
[SnX7] 0 |
|
[SnLX7] 0 |
|
[SnL2X7] 0 |
|
[SnL3X7] 0 |
|
[SnL4X7] 0 |
|
[SnL5X7] 0 |
|
| X+2Z = 8 | [SnX2Z3] 0 |
|
[SnX4Z2] 0 |
|
[SnX6Z] 0 |
|
[SnX8] 0 |
|
[SnLX8] 0 |
|
[SnL2X8] 0 |
|
[SnL3X8] 0 |
|
[SnL4X8] 0 |
|
[SnL5X8] 0 |
| X+2Z = 9 | |
[SnX3Z3] 0 |
|
[SnX5Z2] 0 |
|
[SnX7Z] 0 |
|
[SnX9] 0 |
|
[SnLX9] 0 |
|
[SnL2X9] 0 |
|
[SnL3X9] 0 |
|
[SnL4X9] 0 |
|
| X+2Z = 10 | [SnX2Z4] 0 |
|
[SnX4Z3] 0 |
|
[SnX6Z2] 0 |
|
[SnX8Z] 0 |
|
[SnX10] 0 |
|
[SnLX10] 0 |
|
[SnL2X10] 0 |
|
[SnL3X10] 0 |
|
[SnL4X10] 0 |
| X+2Z = 11 | |
[SnX3Z4] 0 |
|
[SnX5Z3] 0 |
|
[SnX7Z2] 0 |
|
[SnX9Z] 0 |
|
[SnX11] 0 |
|
[SnLX11] 0 |
|
[SnL2X11] 0 |
|
[SnL3X11] 0 |
|
| X+2Z = 12 | [SnX2Z5] 0 |
|
[SnX4Z4] 0 |
|
[SnX6Z3] 0 |
|
[SnX8Z2] 0 |
|
[SnX10Z] 0 |
|
[SnX12] 0 |
|
[SnLX12] 0 |
|
[SnL2X12] 0 |
|
[SnL3X12] 0 |
MLXZq± grid for tin (Sn) for Q = 1: [SnXxLlZz]+
The number of compounds found is 28.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tin with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[SnL2]+ 0 |
|
[SnL3]+ 0 |
|
[SnL4]+ 0 |
|
[SnL5]+ 0 |
|
[SnL6]+ 0 |
|
[SnL7]+ 0 |
|
[SnL8]+ 0 |
|
[SnL9]+ 0 |
|
| X+2Z = 1 | [SnLX]+ 0 |
|
[SnL2X]+ 7% |
|
[SnL3X]+ 7% |
|
[SnL4X]+ 4% |
|
[SnL5X]+ 0 |
|
[SnL6X]+ 4% |
|
[SnL7X]+ 0 |
|
[SnL8X]+ 0 |
|
[SnL9X]+ 0 |
| X+2Z = 2 | |
[SnLX2]+ 0 |
|
[SnL2X2]+ 0 |
|
[SnL3X2]+ 0 |
|
[SnL4X2]+ 0 |
|
[SnL5X2]+ 0 |
|
[SnL6X2]+ 0 |
|
[SnL7X2]+ 0 |
|
[SnL8X2]+ 0 |
|
| X+2Z = 3 | [SnX3]+ 4% |
|
[SnLX3]+ 4% |
|
[SnL2X3]+ 57% |
|
[SnL3X3]+ 11% |
|
[SnL4X3]+ 4% |
|
[SnL5X3]+ 0 |
|
[SnL6X3]+ 0 |
|
[SnL7X3]+ 0 |
|
[SnL8X3]+ 0 |
| X+2Z = 4 | |
[SnX4]+ 0 |
|
[SnLX4]+ 0 |
|
[SnL2X4]+ 0 |
|
[SnL3X4]+ 0 |
|
[SnL4X4]+ 0 |
|
[SnL5X4]+ 0 |
|
[SnL6X4]+ 0 |
|
[SnL7X4]+ 0 |
|
| X+2Z = 5 | [SnX3Z]+ 0 |
|
[SnX5]+ 0 |
|
[SnLX5]+ 0 |
|
[SnL2X5]+ 0 |
|
[SnL3X5]+ 0 |
|
[SnL4X5]+ 0 |
|
[SnL5X5]+ 0 |
|
[SnL6X5]+ 0 |
|
[SnL7X5]+ 0 |
| X+2Z = 6 | |
[SnX4Z]+ 0 |
|
[SnX6]+ 0 |
|
[SnLX6]+ 0 |
|
[SnL2X6]+ 0 |
|
[SnL3X6]+ 0 |
|
[SnL4X6]+ 0 |
|
[SnL5X6]+ 0 |
|
[SnL6X6]+ 0 |
|
| X+2Z = 7 | [SnX3Z2]+ 0 |
|
[SnX5Z]+ 0 |
|
[SnX7]+ 0 |
|
[SnLX7]+ 0 |
|
[SnL2X7]+ 0 |
|
[SnL3X7]+ 0 |
|
[SnL4X7]+ 0 |
|
[SnL5X7]+ 0 |
|
[SnL6X7]+ 0 |
| X+2Z = 8 | |
[SnX4Z2]+ 0 |
|
[SnX6Z]+ 0 |
|
[SnX8]+ 0 |
|
[SnLX8]+ 0 |
|
[SnL2X8]+ 0 |
|
[SnL3X8]+ 0 |
|
[SnL4X8]+ 0 |
|
[SnL5X8]+ 0 |
|
| X+2Z = 9 | [SnX3Z3]+ 0 |
|
[SnX5Z2]+ 0 |
|
[SnX7Z]+ 0 |
|
[SnX9]+ 0 |
|
[SnLX9]+ 0 |
|
[SnL2X9]+ 0 |
|
[SnL3X9]+ 0 |
|
[SnL4X9]+ 0 |
|
[SnL5X9]+ 0 |
| X+2Z = 10 | |
[SnX4Z3]+ 0 |
|
[SnX6Z2]+ 0 |
|
[SnX8Z]+ 0 |
|
[SnX10]+ 0 |
|
[SnLX10]+ 0 |
|
[SnL2X10]+ 0 |
|
[SnL3X10]+ 0 |
|
[SnL4X10]+ 0 |
|
| X+2Z = 11 | [SnX3Z4]+ 0 |
|
[SnX5Z3]+ 0 |
|
[SnX7Z2]+ 0 |
|
[SnX9Z]+ 0 |
|
[SnX11]+ 0 |
|
[SnLX11]+ 0 |
|
[SnL2X11]+ 0 |
|
[SnL3X11]+ 0 |
|
[SnL4X11]+ 0 |
| X+2Z = 12 | |
[SnX4Z4]+ 0 |
|
[SnX6Z3]+ 0 |
|
[SnX8Z2]+ 0 |
|
[SnX10Z]+ 0 |
|
[SnX12]+ 0 |
|
[SnLX12]+ 0 |
|
[SnL2X12]+ 0 |
|
[SnL3X12]+ 0 |
|
MLXZq± grid for tin (Sn) for Q = 2: [SnXxLlZz]2+
The number of compounds found is 15.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tin with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [SnL2]2+ 0 |
|
[SnL3]2+ 13% |
|
[SnL4]2+ 20% |
|
[SnL5]2+ 13% |
|
[SnL6]2+ 7% |
|
[SnL7]2+ 7% |
|
[SnL8]2+ 0 |
|
[SnL9]2+ 0 |
|
[SnL10]2+ 7% |
| X+2Z = 1 | |
[SnL2X]2+ 0 |
|
[SnL3X]2+ 0 |
|
[SnL4X]2+ 0 |
|
[SnL5X]2+ 0 |
|
[SnL6X]2+ 0 |
|
[SnL7X]2+ 0 |
|
[SnL8X]2+ 0 |
|
[SnL9X]2+ 0 |
|
| X+2Z = 2 | [SnLX2]2+ 0 |
|
[SnL2X2]2+ 0 |
|
[SnL3X2]2+ 0 |
|
[SnL4X2]2+ 33% |
|
[SnL5X2]2+ 0 |
|
[SnL6X2]2+ 0 |
|
[SnL7X2]2+ 0 |
|
[SnL8X2]2+ 0 |
|
[SnL9X2]2+ 0 |
| X+2Z = 3 | |
[SnLX3]2+ 0 |
|
[SnL2X3]2+ 0 |
|
[SnL3X3]2+ 0 |
|
[SnL4X3]2+ 0 |
|
[SnL5X3]2+ 0 |
|
[SnL6X3]2+ 0 |
|
[SnL7X3]2+ 0 |
|
[SnL8X3]2+ 0 |
|
| X+2Z = 4 | [SnX4]2+ 0 |
|
[SnLX4]2+ 0 |
|
[SnL2X4]2+ 0 |
|
[SnL3X4]2+ 0 |
|
[SnL4X4]2+ 0 |
|
[SnL5X4]2+ 0 |
|
[SnL6X4]2+ 0 |
|
[SnL7X4]2+ 0 |
|
[SnL8X4]2+ 0 |
| X+2Z = 5 | |
[SnX5]2+ 0 |
|
[SnLX5]2+ 0 |
|
[SnL2X5]2+ 0 |
|
[SnL3X5]2+ 0 |
|
[SnL4X5]2+ 0 |
|
[SnL5X5]2+ 0 |
|
[SnL6X5]2+ 0 |
|
[SnL7X5]2+ 0 |
|
| X+2Z = 6 | [SnX4Z]2+ 0 |
|
[SnX6]2+ 0 |
|
[SnLX6]2+ 0 |
|
[SnL2X6]2+ 0 |
|
[SnL3X6]2+ 0 |
|
[SnL4X6]2+ 0 |
|
[SnL5X6]2+ 0 |
|
[SnL6X6]2+ 0 |
|
[SnL7X6]2+ 0 |
| X+2Z = 7 | |
[SnX5Z]2+ 0 |
|
[SnX7]2+ 0 |
|
[SnLX7]2+ 0 |
|
[SnL2X7]2+ 0 |
|
[SnL3X7]2+ 0 |
|
[SnL4X7]2+ 0 |
|
[SnL5X7]2+ 0 |
|
[SnL6X7]2+ 0 |
|
| X+2Z = 8 | [SnX4Z2]2+ 0 |
|
[SnX6Z]2+ 0 |
|
[SnX8]2+ 0 |
|
[SnLX8]2+ 0 |
|
[SnL2X8]2+ 0 |
|
[SnL3X8]2+ 0 |
|
[SnL4X8]2+ 0 |
|
[SnL5X8]2+ 0 |
|
[SnL6X8]2+ 0 |
| X+2Z = 9 | |
[SnX5Z2]2+ 0 |
|
[SnX7Z]2+ 0 |
|
[SnX9]2+ 0 |
|
[SnLX9]2+ 0 |
|
[SnL2X9]2+ 0 |
|
[SnL3X9]2+ 0 |
|
[SnL4X9]2+ 0 |
|
[SnL5X9]2+ 0 |
|
| X+2Z = 10 | [SnX4Z3]2+ 0 |
|
[SnX6Z2]2+ 0 |
|
[SnX8Z]2+ 0 |
|
[SnX10]2+ 0 |
|
[SnLX10]2+ 0 |
|
[SnL2X10]2+ 0 |
|
[SnL3X10]2+ 0 |
|
[SnL4X10]2+ 0 |
|
[SnL5X10]2+ 0 |
| X+2Z = 11 | |
[SnX5Z3]2+ 0 |
|
[SnX7Z2]2+ 0 |
|
[SnX9Z]2+ 0 |
|
[SnX11]2+ 0 |
|
[SnLX11]2+ 0 |
|
[SnL2X11]2+ 0 |
|
[SnL3X11]2+ 0 |
|
[SnL4X11]2+ 0 |
|
| X+2Z = 12 | [SnX4Z4]2+ 0 |
|
[SnX6Z3]2+ 0 |
|
[SnX8Z2]2+ 0 |
|
[SnX10Z]2+ 0 |
|
[SnX12]2+ 0 |
|
[SnLX12]2+ 0 |
|
[SnL2X12]2+ 0 |
|
[SnL3X12]2+ 0 |
|
[SnL4X12]2+ 0 |
MLXZq± grid for tin (Sn) for Q = 3: [SnXxLlZz]3+
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tin with that [MLXZ]q± classification.
| EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[SnL3]3+ 0 |
|
[SnL4]3+ 0 |
|
[SnL5]3+ 0 |
|
[SnL6]3+ 0 |
|
[SnL7]3+ 0 |
|
[SnL8]3+ 0 |
|
[SnL9]3+ 0 |
|
[SnL10]3+ 0 |
|
| X+2Z = 1 | [SnL2X]3+ 0 |
|
[SnL3X]3+ 0 |
|
[SnL4X]3+ 0 |
|
[SnL5X]3+ 100% |
|
[SnL6X]3+ 0 |
|
[SnL7X]3+ 0 |
|
[SnL8X]3+ 0 |
|
[SnL9X]3+ 0 |
|
[SnL10X]3+ 0 |
| X+2Z = 2 | |
[SnL2X2]3+ 0 |
|
[SnL3X2]3+ 0 |
|
[SnL4X2]3+ 0 |
|
[SnL5X2]3+ 0 |
|
[SnL6X2]3+ 0 |
|
[SnL7X2]3+ 0 |
|
[SnL8X2]3+ 0 |
|
[SnL9X2]3+ 0 |
|
| X+2Z = 3 | [SnLX3]3+ 0 |
|
[SnL2X3]3+ 0 |
|
[SnL3X3]3+ 0 |
|
[SnL4X3]3+ 0 |
|
[SnL5X3]3+ 0 |
|
[SnL6X3]3+ 0 |
|
[SnL7X3]3+ 0 |
|
[SnL8X3]3+ 0 |
|
[SnL9X3]3+ 0 |
| X+2Z = 4 | |
[SnLX4]3+ 0 |
|
[SnL2X4]3+ 0 |
|
[SnL3X4]3+ 0 |
|
[SnL4X4]3+ 0 |
|
[SnL5X4]3+ 0 |
|
[SnL6X4]3+ 0 |
|
[SnL7X4]3+ 0 |
|
[SnL8X4]3+ 0 |
|
| X+2Z = 5 | [SnX5]3+ 0 |
|
[SnLX5]3+ 0 |
|
[SnL2X5]3+ 0 |
|
[SnL3X5]3+ 0 |
|
[SnL4X5]3+ 0 |
|
[SnL5X5]3+ 0 |
|
[SnL6X5]3+ 0 |
|
[SnL7X5]3+ 0 |
|
[SnL8X5]3+ 0 |
| X+2Z = 6 | |
[SnX6]3+ 0 |
|
[SnLX6]3+ 0 |
|
[SnL2X6]3+ 0 |
|
[SnL3X6]3+ 0 |
|
[SnL4X6]3+ 0 |
|
[SnL5X6]3+ 0 |
|
[SnL6X6]3+ 0 |
|
[SnL7X6]3+ 0 |
|
| X+2Z = 7 | [SnX5Z]3+ 0 |
|
[SnX7]3+ 0 |
|
[SnLX7]3+ 0 |
|
[SnL2X7]3+ 0 |
|
[SnL3X7]3+ 0 |
|
[SnL4X7]3+ 0 |
|
[SnL5X7]3+ 0 |
|
[SnL6X7]3+ 0 |
|
[SnL7X7]3+ 0 |
| X+2Z = 8 | |
[SnX6Z]3+ 0 |
|
[SnX8]3+ 0 |
|
[SnLX8]3+ 0 |
|
[SnL2X8]3+ 0 |
|
[SnL3X8]3+ 0 |
|
[SnL4X8]3+ 0 |
|
[SnL5X8]3+ 0 |
|
[SnL6X8]3+ 0 |
|
| X+2Z = 9 | [SnX5Z2]3+ 0 |
|
[SnX7Z]3+ 0 |
|
[SnX9]3+ 0 |
|
[SnLX9]3+ 0 |
|
[SnL2X9]3+ 0 |
|
[SnL3X9]3+ 0 |
|
[SnL4X9]3+ 0 |
|
[SnL5X9]3+ 0 |
|
[SnL6X9]3+ 0 |
| X+2Z = 10 | |
[SnX6Z2]3+ 0 |
|
[SnX8Z]3+ 0 |
|
[SnX10]3+ 0 |
|
[SnLX10]3+ 0 |
|
[SnL2X10]3+ 0 |
|
[SnL3X10]3+ 0 |
|
[SnL4X10]3+ 0 |
|
[SnL5X10]3+ 0 |
|
| X+2Z = 11 | [SnX5Z3]3+ 0 |
|
[SnX7Z2]3+ 0 |
|
[SnX9Z]3+ 0 |
|
[SnX11]3+ 0 |
|
[SnLX11]3+ 0 |
|
[SnL2X11]3+ 0 |
|
[SnL3X11]3+ 0 |
|
[SnL4X11]3+ 0 |
|
[SnL5X11]3+ 0 |
| X+2Z = 12 | |
[SnX6Z3]3+ 0 |
|
[SnX8Z2]3+ 0 |
|
[SnX10Z]3+ 0 |
|
[SnX12]3+ 0 |
|
[SnLX12]3+ 0 |
|
[SnL2X12]3+ 0 |
|
[SnL3X12]3+ 0 |
|
[SnL4X12]3+ 0 |
|
MLXZq± grid for tin (Sn) for Q = 4: [SnXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for antimony (Sb) for Q = -6: [SbXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for antimony (Sb) for Q = -5: [SbXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for antimony (Sb) for Q = -4: [SbXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for antimony (Sb) for Q = -3: [SbXxLlZz]3-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of antimony with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Sb]3- 0 |
|
[SbL]3- 0 |
|
[SbL2]3- 0 |
|
[SbL3]3- 0 |
| X+2Z = 1 | |
[SbX]3- 0 |
|
[SbLX]3- 0 |
|
[SbL2X]3- 0 |
|
| X+2Z = 2 | [SbZ]3- 0 |
|
[SbX2]3- 0 |
|
[SbLX2]3- 0 |
|
[SbL2X2]3- 0 |
| X+2Z = 3 | |
[SbXZ]3- 0 |
|
[SbX3]3- 0 |
|
[SbLX3]3- 0 |
|
| X+2Z = 4 | [SbZ2]3- 0 |
|
[SbX2Z]3- 0 |
|
[SbX4]3- 0 |
|
[SbLX4]3- 0 |
| X+2Z = 5 | |
[SbXZ2]3- 0 |
|
[SbX3Z]3- 0 |
|
[SbX5]3- 0 |
|
| X+2Z = 6 | [SbZ3]3- 0 |
|
[SbX2Z2]3- 0 |
|
[SbX4Z]3- 0 |
|
[SbX6]3- 100% |
| X+2Z = 7 | |
[SbXZ3]3- 0 |
|
[SbX3Z2]3- 0 |
|
[SbX5Z]3- 0 |
|
| X+2Z = 8 | [SbZ4]3- 0 |
|
[SbX2Z3]3- 0 |
|
[SbX4Z2]3- 0 |
|
[SbX6Z]3- 0 |
| X+2Z = 9 | |
[SbXZ4]3- 0 |
|
[SbX3Z3]3- 0 |
|
[SbX5Z2]3- 0 |
|
| X+2Z = 10 | [SbZ5]3- 0 |
|
[SbX2Z4]3- 0 |
|
[SbX4Z3]3- 0 |
|
[SbX6Z2]3- 0 |
| X+2Z = 11 | |
[SbXZ5]3- 0 |
|
[SbX3Z4]3- 0 |
|
[SbX5Z3]3- 0 |
|
| X+2Z = 12 | [SbZ6]3- 0 |
|
[SbX2Z5]3- 0 |
|
[SbX4Z4]3- 0 |
|
[SbX6Z3]3- 0 |
MLXZq± grid for antimony (Sb) for Q = -2: [SbXxLlZz]2-
The number of compounds found is 12.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of antimony with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[SbL]2- 0 |
|
[SbL2]2- 0 |
|
[SbL3]2- 0 |
|
| X+2Z = 1 | [SbX]2- 0 |
|
[SbLX]2- 0 |
|
[SbL2X]2- 0 |
|
[SbL3X]2- 0 |
| X+2Z = 2 | |
[SbX2]2- 0 |
|
[SbLX2]2- 0 |
|
[SbL2X2]2- 0 |
|
| X+2Z = 3 | [SbXZ]2- 0 |
|
[SbX3]2- 0 |
|
[SbLX3]2- 0 |
|
[SbL2X3]2- 0 |
| X+2Z = 4 | |
[SbX2Z]2- 0 |
|
[SbX4]2- 0 |
|
[SbLX4]2- 0 |
|
| X+2Z = 5 | [SbXZ2]2- 0 |
|
[SbX3Z]2- 0 |
|
[SbX5]2- 67% |
|
[SbLX5]2- 25% |
| X+2Z = 6 | |
[SbX2Z2]2- 0 |
|
[SbX4Z]2- 0 |
|
[SbX6]2- 0 |
|
| X+2Z = 7 | [SbXZ3]2- 8% |
|
[SbX3Z2]2- 0 |
|
[SbX5Z]2- 0 |
|
[SbX7]2- 0 |
| X+2Z = 8 | |
[SbX2Z3]2- 0 |
|
[SbX4Z2]2- 0 |
|
[SbX6Z]2- 0 |
|
| X+2Z = 9 | [SbXZ4]2- 0 |
|
[SbX3Z3]2- 0 |
|
[SbX5Z2]2- 0 |
|
[SbX7Z]2- 0 |
| X+2Z = 10 | |
[SbX2Z4]2- 0 |
|
[SbX4Z3]2- 0 |
|
[SbX6Z2]2- 0 |
|
| X+2Z = 11 | [SbXZ5]2- 0 |
|
[SbX3Z4]2- 0 |
|
[SbX5Z3]2- 0 |
|
[SbX7Z2]2- 0 |
| X+2Z = 12 | |
[SbX2Z5]2- 0 |
|
[SbX4Z4]2- 0 |
|
[SbX6Z3]2- 0 |
|
MLXZq± grid for antimony (Sb) for Q = -1: [SbXxLlZz]-
The number of compounds found is 25.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of antimony with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [SbL]- 0 |
|
[SbL2]- 0 |
|
[SbL3]- 0 |
|
[SbL4]- 0 |
| X+2Z = 1 | |
[SbLX]- 0 |
|
[SbL2X]- 0 |
|
[SbL3X]- 0 |
|
| X+2Z = 2 | [SbX2]- 0 |
|
[SbLX2]- 0 |
|
[SbL2X2]- 0 |
|
[SbL3X2]- 0 |
| X+2Z = 3 | |
[SbX3]- 0 |
|
[SbLX3]- 0 |
|
[SbL2X3]- 0 |
|
| X+2Z = 4 | [SbX2Z]- 0 |
|
[SbX4]- 28% |
|
[SbLX4]- 8% |
|
[SbL2X4]- 12% |
| X+2Z = 5 | |
[SbX3Z]- 0 |
|
[SbX5]- 0 |
|
[SbLX5]- 0 |
|
| X+2Z = 6 | [SbX2Z2]- 12% |
|
[SbX4Z]- 0 |
|
[SbX6]- 40% |
|
[SbLX6]- 0 |
| X+2Z = 7 | |
[SbX3Z2]- 0 |
|
[SbX5Z]- 0 |
|
[SbX7]- 0 |
|
| X+2Z = 8 | [SbX2Z3]- 0 |
|
[SbX4Z2]- 0 |
|
[SbX6Z]- 0 |
|
[SbX8]- 0 |
| X+2Z = 9 | |
[SbX3Z3]- 0 |
|
[SbX5Z2]- 0 |
|
[SbX7Z]- 0 |
|
| X+2Z = 10 | [SbX2Z4]- 0 |
|
[SbX4Z3]- 0 |
|
[SbX6Z2]- 0 |
|
[SbX8Z]- 0 |
| X+2Z = 11 | |
[SbX3Z4]- 0 |
|
[SbX5Z3]- 0 |
|
[SbX7Z2]- 0 |
|
| X+2Z = 12 | [SbX2Z5]- 0 |
|
[SbX4Z4]- 0 |
|
[SbX6Z3]- 0 |
|
[SbX8Z2]- 0 |
MLXZq± grid for antimony (Sb) for Q = 0: [SbXxLlZz]
The number of compounds found is 318.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of antimony with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[SbL2] 0 |
|
[SbL3] 0 |
|
[SbL4] 0 |
|
| X+2Z = 1 | [SbLX] 0 |
|
[SbL2X] 0 |
|
[SbL3X] 0 |
|
[SbL4X] 0 |
| X+2Z = 2 | |
[SbLX2] 0 |
|
[SbL2X2] 0 |
|
[SbL3X2] 0 |
|
| X+2Z = 3 | [SbX3] 26% |
|
[SbLX3] 6% |
|
[SbL2X3] 7% |
|
[SbL3X3] 3% |
| X+2Z = 4 | |
[SbX4] 0 |
|
[SbLX4] 0 |
|
[SbL2X4] 0 |
|
| X+2Z = 5 | [SbX3Z] 31% |
|
[SbX5] 18% |
|
[SbLX5] 9% |
|
[SbL2X5] 0 |
| X+2Z = 6 | |
[SbX4Z] 0 |
|
[SbX6] 0 |
|
[SbLX6] 0 |
|
| X+2Z = 7 | [SbX3Z2] 0 |
|
[SbX5Z] 0 |
|
[SbX7] 0 |
|
[SbLX7] 0 |
| X+2Z = 8 | |
[SbX4Z2] 0 |
|
[SbX6Z] 0 |
|
[SbX8] 0 |
|
| X+2Z = 9 | [SbX3Z3] 0 |
|
[SbX5Z2] 0 |
|
[SbX7Z] 0 |
|
[SbX9] 0 |
| X+2Z = 10 | |
[SbX4Z3] 0 |
|
[SbX6Z2] 0 |
|
[SbX8Z] 0 |
|
| X+2Z = 11 | [SbX3Z4] 0 |
|
[SbX5Z3] 0 |
|
[SbX7Z2] 0 |
|
[SbX9Z] 0 |
| X+2Z = 12 | |
[SbX4Z4] 0 |
|
[SbX6Z3] 0 |
|
[SbX8Z2] 0 |
|
MLXZq± grid for antimony (Sb) for Q = 1: [SbXxLlZz]+
The number of compounds found is 31.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of antimony with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [SbL2]+ 0 |
|
[SbL3]+ 0 |
|
[SbL4]+ 0 |
|
[SbL5]+ 0 |
| X+2Z = 1 | |
[SbL2X]+ 0 |
|
[SbL3X]+ 0 |
|
[SbL4X]+ 0 |
|
| X+2Z = 2 | [SbLX2]+ 6% |
|
[SbL2X2]+ 23% |
|
[SbL3X2]+ 0 |
|
[SbL4X2]+ 3% |
| X+2Z = 3 | |
[SbLX3]+ 0 |
|
[SbL2X3]+ 0 |
|
[SbL3X3]+ 0 |
|
| X+2Z = 4 | [SbX4]+ 55% |
|
[SbLX4]+ 3% |
|
[SbL2X4]+ 10% |
|
[SbL3X4]+ 0 |
| X+2Z = 5 | |
[SbX5]+ 0 |
|
[SbLX5]+ 0 |
|
[SbL2X5]+ 0 |
|
| X+2Z = 6 | [SbX4Z]+ 0 |
|
[SbX6]+ 0 |
|
[SbLX6]+ 0 |
|
[SbL2X6]+ 0 |
| X+2Z = 7 | |
[SbX5Z]+ 0 |
|
[SbX7]+ 0 |
|
[SbLX7]+ 0 |
|
| X+2Z = 8 | [SbX4Z2]+ 0 |
|
[SbX6Z]+ 0 |
|
[SbX8]+ 0 |
|
[SbLX8]+ 0 |
| X+2Z = 9 | |
[SbX5Z2]+ 0 |
|
[SbX7Z]+ 0 |
|
[SbX9]+ 0 |
|
| X+2Z = 10 | [SbX4Z3]+ 0 |
|
[SbX6Z2]+ 0 |
|
[SbX8Z]+ 0 |
|
[SbX10]+ 0 |
| X+2Z = 11 | |
[SbX5Z3]+ 0 |
|
[SbX7Z2]+ 0 |
|
[SbX9Z]+ 0 |
|
| X+2Z = 12 | [SbX4Z4]+ 0 |
|
[SbX6Z3]+ 0 |
|
[SbX8Z2]+ 0 |
|
[SbX10Z]+ 0 |
MLXZq± grid for antimony (Sb) for Q = 2: [SbXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for antimony (Sb) for Q = 3: [SbXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for antimony (Sb) for Q = 4: [SbXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for tellurium (Te) for Q = -6: [TeXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for tellurium (Te) for Q = -5: [TeXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for tellurium (Te) for Q = -4: [TeXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for tellurium (Te) for Q = -3: [TeXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for tellurium (Te) for Q = -2: [TeXxLlZz]2-
The number of compounds found is 14.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tellurium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Te]2- 0 |
|
[TeL]2- 0 |
|
[TeL2]2- 7% |
|
[TeL3]2- 0 |
| X+2Z = 1 | |
[TeX]2- 0 |
|
[TeLX]2- 0 |
|
[TeL2X]2- 0 |
|
| X+2Z = 2 | [TeZ]2- 0 |
|
[TeX2]2- 0 |
|
[TeLX2]2- 0 |
|
[TeL2X2]2- 0 |
| X+2Z = 3 | |
[TeXZ]2- 0 |
|
[TeX3]2- 0 |
|
[TeLX3]2- 0 |
|
| X+2Z = 4 | [TeZ2]2- 7% |
|
[TeX2Z]2- 0 |
|
[TeX4]2- 43% |
|
[TeLX4]2- 0 |
| X+2Z = 5 | |
[TeXZ2]2- 0 |
|
[TeX3Z]2- 0 |
|
[TeX5]2- 0 |
|
| X+2Z = 6 | [TeZ3]2- 14% |
|
[TeX2Z2]2- 0 |
|
[TeX4Z]2- 0 |
|
[TeX6]2- 29% |
| X+2Z = 7 | |
[TeXZ3]2- 0 |
|
[TeX3Z2]2- 0 |
|
[TeX5Z]2- 0 |
|
| X+2Z = 8 | [TeZ4]2- 0 |
|
[TeX2Z3]2- 0 |
|
[TeX4Z2]2- 0 |
|
[TeX6Z]2- 0 |
| X+2Z = 9 | |
[TeXZ4]2- 0 |
|
[TeX3Z3]2- 0 |
|
[TeX5Z2]2- 0 |
|
| X+2Z = 10 | [TeZ5]2- 0 |
|
[TeX2Z4]2- 0 |
|
[TeX4Z3]2- 0 |
|
[TeX6Z2]2- 0 |
| X+2Z = 11 | |
[TeXZ5]2- 0 |
|
[TeX3Z4]2- 0 |
|
[TeX5Z3]2- 0 |
|
| X+2Z = 12 | [TeZ6]2- 0 |
|
[TeX2Z5]2- 0 |
|
[TeX4Z4]2- 0 |
|
[TeX6Z3]2- 0 |
MLXZq± grid for tellurium (Te) for Q = -1: [TeXxLlZz]-
The number of compounds found is 45.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tellurium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[TeL]- 0 |
|
[TeL2]- 0 |
|
[TeL3]- 0 |
|
| X+2Z = 1 | [TeX]- 7% |
|
[TeLX]- 0 |
|
[TeL2X]- 0 |
|
[TeL3X]- 0 |
| X+2Z = 2 | |
[TeX2]- 0 |
|
[TeLX2]- 0 |
|
[TeL2X2]- 0 |
|
| X+2Z = 3 | [TeXZ]- 2% |
|
[TeX3]- 22% |
|
[TeLX3]- 4% |
|
[TeL2X3]- 0 |
| X+2Z = 4 | |
[TeX2Z]- 0 |
|
[TeX4]- 0 |
|
[TeLX4]- 0 |
|
| X+2Z = 5 | [TeXZ2]- 27% |
|
[TeX3Z]- 2% |
|
[TeX5]- 27% |
|
[TeLX5]- 4% |
| X+2Z = 6 | |
[TeX2Z2]- 0 |
|
[TeX4Z]- 0 |
|
[TeX6]- 0 |
|
| X+2Z = 7 | [TeXZ3]- 2% |
|
[TeX3Z2]- 0 |
|
[TeX5Z]- 0 |
|
[TeX7]- 2% |
| X+2Z = 8 | |
[TeX2Z3]- 0 |
|
[TeX4Z2]- 0 |
|
[TeX6Z]- 0 |
|
| X+2Z = 9 | [TeXZ4]- 0 |
|
[TeX3Z3]- 0 |
|
[TeX5Z2]- 0 |
|
[TeX7Z]- 0 |
| X+2Z = 10 | |
[TeX2Z4]- 0 |
|
[TeX4Z3]- 0 |
|
[TeX6Z2]- 0 |
|
| X+2Z = 11 | [TeXZ5]- 0 |
|
[TeX3Z4]- 0 |
|
[TeX5Z3]- 0 |
|
[TeX7Z2]- 0 |
| X+2Z = 12 | |
[TeX2Z5]- 0 |
|
[TeX4Z4]- 0 |
|
[TeX6Z3]- 0 |
|
MLXZq± grid for tellurium (Te) for Q = 0: [TeXxLlZz]
The number of compounds found is 359.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tellurium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [TeL] 0 |
|
[TeL2] 0 |
|
[TeL3] 0 |
|
[TeL4] 0 |
| X+2Z = 1 | |
[TeLX] 0 |
|
[TeL2X] 0 |
|
[TeL3X] 0 |
|
| X+2Z = 2 | [TeX2] 41% |
|
[TeLX2] 4% |
|
[TeL2X2] 4% |
|
[TeL3X2] 0 |
| X+2Z = 3 | |
[TeX3] 0 |
|
[TeLX3] 0 |
|
[TeL2X3] 0 |
|
| X+2Z = 4 | [TeX2Z] 11% |
|
[TeX4] 19% |
|
[TeLX4] 2% |
|
[TeL2X4] 5% |
| X+2Z = 5 | |
[TeX3Z] 0 |
|
[TeX5] 0 |
|
[TeLX5] 0 |
|
| X+2Z = 6 | [TeX2Z2] 3% |
|
[TeX4Z] 0 |
|
[TeX6] 11% |
|
[TeLX6] 0 |
| X+2Z = 7 | |
[TeX3Z2] 0 |
|
[TeX5Z] 0 |
|
[TeX7] 0 |
|
| X+2Z = 8 | [TeX2Z3] 0 |
|
[TeX4Z2] 0 |
|
[TeX6Z] 0 |
|
[TeX8] 0 |
| X+2Z = 9 | |
[TeX3Z3] 0 |
|
[TeX5Z2] 0 |
|
[TeX7Z] 0 |
|
| X+2Z = 10 | [TeX2Z4] 0 |
|
[TeX4Z3] 0 |
|
[TeX6Z2] 0 |
|
[TeX8Z] 0 |
| X+2Z = 11 | |
[TeX3Z4] 0 |
|
[TeX5Z3] 0 |
|
[TeX7Z2] 0 |
|
| X+2Z = 12 | [TeX2Z5] 0 |
|
[TeX4Z4] 0 |
|
[TeX6Z3] 0 |
|
[TeX8Z2] 0 |
MLXZq± grid for tellurium (Te) for Q = 1: [TeXxLlZz]+
The number of compounds found is 29.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tellurium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[TeL2]+ 0 |
|
[TeL3]+ 0 |
|
[TeL4]+ 0 |
|
| X+2Z = 1 | [TeLX]+ 14% |
|
[TeL2X]+ 7% |
|
[TeL3X]+ 0 |
|
[TeL4X]+ 0 |
| X+2Z = 2 | |
[TeLX2]+ 0 |
|
[TeL2X2]+ 0 |
|
[TeL3X2]+ 0 |
|
| X+2Z = 3 | [TeX3]+ 72% |
|
[TeLX3]+ 0 |
|
[TeL2X3]+ 0 |
|
[TeL3X3]+ 0 |
| X+2Z = 4 | |
[TeX4]+ 0 |
|
[TeLX4]+ 0 |
|
[TeL2X4]+ 0 |
|
| X+2Z = 5 | [TeX3Z]+ 0 |
|
[TeX5]+ 3% |
|
[TeLX5]+ 3% |
|
[TeL2X5]+ 0 |
| X+2Z = 6 | |
[TeX4Z]+ 0 |
|
[TeX6]+ 0 |
|
[TeLX6]+ 0 |
|
| X+2Z = 7 | [TeX3Z2]+ 0 |
|
[TeX5Z]+ 0 |
|
[TeX7]+ 0 |
|
[TeLX7]+ 0 |
| X+2Z = 8 | |
[TeX4Z2]+ 0 |
|
[TeX6Z]+ 0 |
|
[TeX8]+ 0 |
|
| X+2Z = 9 | [TeX3Z3]+ 0 |
|
[TeX5Z2]+ 0 |
|
[TeX7Z]+ 0 |
|
[TeX9]+ 0 |
| X+2Z = 10 | |
[TeX4Z3]+ 0 |
|
[TeX6Z2]+ 0 |
|
[TeX8Z]+ 0 |
|
| X+2Z = 11 | [TeX3Z4]+ 0 |
|
[TeX5Z3]+ 0 |
|
[TeX7Z2]+ 0 |
|
[TeX9Z]+ 0 |
| X+2Z = 12 | |
[TeX4Z4]+ 0 |
|
[TeX6Z3]+ 0 |
|
[TeX8Z2]+ 0 |
|
MLXZq± grid for tellurium (Te) for Q = 2: [TeXxLlZz]2+
The number of compounds found is 6.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of tellurium with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [TeL2]2+ 33% |
|
[TeL3]2+ 0 |
|
[TeL4]2+ 50% |
|
[TeL5]2+ 0 |
| X+2Z = 1 | |
[TeL2X]2+ 0 |
|
[TeL3X]2+ 0 |
|
[TeL4X]2+ 0 |
|
| X+2Z = 2 | [TeLX2]2+ 0 |
|
[TeL2X2]2+ 0 |
|
[TeL3X2]2+ 0 |
|
[TeL4X2]2+ 0 |
| X+2Z = 3 | |
[TeLX3]2+ 0 |
|
[TeL2X3]2+ 0 |
|
[TeL3X3]2+ 0 |
|
| X+2Z = 4 | [TeX4]2+ 17% |
|
[TeLX4]2+ 0 |
|
[TeL2X4]2+ 0 |
|
[TeL3X4]2+ 0 |
| X+2Z = 5 | |
[TeX5]2+ 0 |
|
[TeLX5]2+ 0 |
|
[TeL2X5]2+ 0 |
|
| X+2Z = 6 | [TeX4Z]2+ 0 |
|
[TeX6]2+ 0 |
|
[TeLX6]2+ 0 |
|
[TeL2X6]2+ 0 |
| X+2Z = 7 | |
[TeX5Z]2+ 0 |
|
[TeX7]2+ 0 |
|
[TeLX7]2+ 0 |
|
| X+2Z = 8 | [TeX4Z2]2+ 0 |
|
[TeX6Z]2+ 0 |
|
[TeX8]2+ 0 |
|
[TeLX8]2+ 0 |
| X+2Z = 9 | |
[TeX5Z2]2+ 0 |
|
[TeX7Z]2+ 0 |
|
[TeX9]2+ 0 |
|
| X+2Z = 10 | [TeX4Z3]2+ 0 |
|
[TeX6Z2]2+ 0 |
|
[TeX8Z]2+ 0 |
|
[TeX10]2+ 0 |
| X+2Z = 11 | |
[TeX5Z3]2+ 0 |
|
[TeX7Z2]2+ 0 |
|
[TeX9Z]2+ 0 |
|
| X+2Z = 12 | [TeX4Z4]2+ 0 |
|
[TeX6Z3]2+ 0 |
|
[TeX8Z2]2+ 0 |
|
[TeX10Z]2+ 0 |
MLXZq± grid for tellurium (Te) for Q = 3: [TeXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for tellurium (Te) for Q = 4: [TeXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for iodine (I) for Q = -6: [IXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for iodine (I) for Q = -5: [IXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for iodine (I) for Q = -4: [IXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for iodine (I) for Q = -3: [IXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for iodine (I) for Q = -2: [IXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for iodine (I) for Q = -1: [IXxLlZz]-
The number of compounds found is 31.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of iodine with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [I]- 0 |
|
[IL]- 0 |
|
[IL2]- 0 |
|
[IL3]- 0 |
|
[IL4]- 0 |
| X+2Z = 1 | |
[IX]- 0 |
|
[ILX]- 0 |
|
[IL2X]- 0 |
|
[IL3X]- 0 |
|
| X+2Z = 2 | [IZ]- 42% |
|
[IX2]- 35% |
|
[ILX2]- 0 |
|
[IL2X2]- 0 |
|
[IL3X2]- 0 |
| X+2Z = 3 | |
[IXZ]- 0 |
|
[IX3]- 0 |
|
[ILX3]- 0 |
|
[IL2X3]- 0 |
|
| X+2Z = 4 | [IZ2]- 3% |
|
[IX2Z]- 0 |
|
[IX4]- 10% |
|
[ILX4]- 0 |
|
[IL2X4]- 0 |
| X+2Z = 5 | |
[IXZ2]- 0 |
|
[IX3Z]- 0 |
|
[IX5]- 0 |
|
[ILX5]- 0 |
|
| X+2Z = 6 | [IZ3]- 0 |
|
[IX2Z2]- 0 |
|
[IX4Z]- 0 |
|
[IX6]- 6% |
|
[ILX6]- 0 |
| X+2Z = 7 | |
[IXZ3]- 0 |
|
[IX3Z2]- 0 |
|
[IX5Z]- 0 |
|
[IX7]- 0 |
|
| X+2Z = 8 | [IZ4]- 0 |
|
[IX2Z3]- 0 |
|
[IX4Z2]- 0 |
|
[IX6Z]- 0 |
|
[IX8]- 3% |
| X+2Z = 9 | |
[IXZ4]- 0 |
|
[IX3Z3]- 0 |
|
[IX5Z2]- 0 |
|
[IX7Z]- 0 |
|
| X+2Z = 10 | [IZ5]- 0 |
|
[IX2Z4]- 0 |
|
[IX4Z3]- 0 |
|
[IX6Z2]- 0 |
|
[IX8Z]- 0 |
| X+2Z = 11 | |
[IXZ5]- 0 |
|
[IX3Z4]- 0 |
|
[IX5Z3]- 0 |
|
[IX7Z2]- 0 |
|
| X+2Z = 12 | [IZ6]- 0 |
|
[IX2Z5]- 0 |
|
[IX4Z4]- 0 |
|
[IX6Z3]- 0 |
|
[IX8Z2]- 0 |
MLXZq± grid for iodine (I) for Q = 0: [IXxLlZz]
The number of compounds found is 1506.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of iodine with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[IL] 0 |
|
[IL2] 0 |
|
[IL3] 0 |
|
[IL4] 0 |
|
| X+2Z = 1 | [IX] 80% |
|
[ILX] 2% |
|
[IL2X] 0 |
|
[IL3X] 0 |
|
[IL4X] 0 |
| X+2Z = 2 | |
[IX2] 0 |
|
[ILX2] 0 |
|
[IL2X2] 0 |
|
[IL3X2] 0 |
|
| X+2Z = 3 | [IXZ] 14% |
|
[IX3] 2% |
|
[ILX3] 0.1% |
|
[IL2X3] 0 |
|
[IL3X3] 0 |
| X+2Z = 4 | |
[IX2Z] 0 |
|
[IX4] 0 |
|
[ILX4] 0 |
|
[IL2X4] 0 |
|
| X+2Z = 5 | [IXZ2] 1% |
|
[IX3Z] 0.1% |
|
[IX5] 1% |
|
[ILX5] 0 |
|
[IL2X5] 0 |
| X+2Z = 6 | |
[IX2Z2] 0 |
|
[IX4Z] 0 |
|
[IX6] 0 |
|
[ILX6] 0 |
|
| X+2Z = 7 | [IXZ3] 1% |
|
[IX3Z2] 0 |
|
[IX5Z] 0 |
|
[IX7] 0.1% |
|
[ILX7] 0 |
| X+2Z = 8 | |
[IX2Z3] 0 |
|
[IX4Z2] 0 |
|
[IX6Z] 0 |
|
[IX8] 0 |
|
| X+2Z = 9 | [IXZ4] 0 |
|
[IX3Z3] 0 |
|
[IX5Z2] 0 |
|
[IX7Z] 0 |
|
[IX9] 0 |
| X+2Z = 10 | |
[IX2Z4] 0 |
|
[IX4Z3] 0 |
|
[IX6Z2] 0 |
|
[IX8Z] 0 |
|
| X+2Z = 11 | [IXZ5] 0 |
|
[IX3Z4] 0 |
|
[IX5Z3] 0 |
|
[IX7Z2] 0 |
|
[IX9Z] 0 |
| X+2Z = 12 | |
[IX2Z5] 0 |
|
[IX4Z4] 0 |
|
[IX6Z3] 0 |
|
[IX8Z2] 0 |
|
MLXZq± grid for iodine (I) for Q = 1: [IXxLlZz]+
The number of compounds found is 41.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of iodine with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [IL]+ 27% |
|
[IL2]+ 15% |
|
[IL3]+ 0 |
|
[IL4]+ 0 |
|
[IL5]+ 0 |
| X+2Z = 1 | |
[ILX]+ 0 |
|
[IL2X]+ 0 |
|
[IL3X]+ 0 |
|
[IL4X]+ 0 |
|
| X+2Z = 2 | [IX2]+ 34% |
|
[ILX2]+ 0 |
|
[IL2X2]+ 0 |
|
[IL3X2]+ 0 |
|
[IL4X2]+ 0 |
| X+2Z = 3 | |
[IX3]+ 0 |
|
[ILX3]+ 0 |
|
[IL2X3]+ 0 |
|
[IL3X3]+ 0 |
|
| X+2Z = 4 | [IX2Z]+ 0 |
|
[IX4]+ 15% |
|
[ILX4]+ 0 |
|
[IL2X4]+ 0 |
|
[IL3X4]+ 0 |
| X+2Z = 5 | |
[IX3Z]+ 0 |
|
[IX5]+ 0 |
|
[ILX5]+ 0 |
|
[IL2X5]+ 0 |
|
| X+2Z = 6 | [IX2Z2]+ 0 |
|
[IX4Z]+ 0 |
|
[IX6]+ 10% |
|
[ILX6]+ 0 |
|
[IL2X6]+ 0 |
| X+2Z = 7 | |
[IX3Z2]+ 0 |
|
[IX5Z]+ 0 |
|
[IX7]+ 0 |
|
[ILX7]+ 0 |
|
| X+2Z = 8 | [IX2Z3]+ 0 |
|
[IX4Z2]+ 0 |
|
[IX6Z]+ 0 |
|
[IX8]+ 0 |
|
[ILX8]+ 0 |
| X+2Z = 9 | |
[IX3Z3]+ 0 |
|
[IX5Z2]+ 0 |
|
[IX7Z]+ 0 |
|
[IX9]+ 0 |
|
| X+2Z = 10 | [IX2Z4]+ 0 |
|
[IX4Z3]+ 0 |
|
[IX6Z2]+ 0 |
|
[IX8Z]+ 0 |
|
[IX10]+ 0 |
| X+2Z = 11 | |
[IX3Z4]+ 0 |
|
[IX5Z3]+ 0 |
|
[IX7Z2]+ 0 |
|
[IX9Z]+ 0 |
|
| X+2Z = 12 | [IX2Z5]+ 0 |
|
[IX4Z4]+ 0 |
|
[IX6Z3]+ 0 |
|
[IX8Z2]+ 0 |
|
[IX10Z]+ 0 |
MLXZq± grid for iodine (I) for Q = 2: [IXxLlZz]2+
The number of compounds found is 5.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of iodine with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[IL2]2+ 0 |
|
[IL3]2+ 0 |
|
[IL4]2+ 0 |
|
[IL5]2+ 0 |
|
| X+2Z = 1 | [ILX]2+ 0 |
|
[IL2X]2+ 0 |
|
[IL3X]2+ 0 |
|
[IL4X]2+ 0 |
|
[IL5X]2+ 0 |
| X+2Z = 2 | |
[ILX2]2+ 0 |
|
[IL2X2]2+ 0 |
|
[IL3X2]2+ 0 |
|
[IL4X2]2+ 0 |
|
| X+2Z = 3 | [IX3]2+ 80% |
|
[ILX3]2+ 0 |
|
[IL2X3]2+ 0 |
|
[IL3X3]2+ 0 |
|
[IL4X3]2+ 0 |
| X+2Z = 4 | |
[IX4]2+ 0 |
|
[ILX4]2+ 0 |
|
[IL2X4]2+ 0 |
|
[IL3X4]2+ 0 |
|
| X+2Z = 5 | [IX3Z]2+ 0 |
|
[IX5]2+ 20% |
|
[ILX5]2+ 0 |
|
[IL2X5]2+ 0 |
|
[IL3X5]2+ 0 |
| X+2Z = 6 | |
[IX4Z]2+ 0 |
|
[IX6]2+ 0 |
|
[ILX6]2+ 0 |
|
[IL2X6]2+ 0 |
|
| X+2Z = 7 | [IX3Z2]2+ 0 |
|
[IX5Z]2+ 0 |
|
[IX7]2+ 0 |
|
[ILX7]2+ 0 |
|
[IL2X7]2+ 0 |
| X+2Z = 8 | |
[IX4Z2]2+ 0 |
|
[IX6Z]2+ 0 |
|
[IX8]2+ 0 |
|
[ILX8]2+ 0 |
|
| X+2Z = 9 | [IX3Z3]2+ 0 |
|
[IX5Z2]2+ 0 |
|
[IX7Z]2+ 0 |
|
[IX9]2+ 0 |
|
[ILX9]2+ 0 |
| X+2Z = 10 | |
[IX4Z3]2+ 0 |
|
[IX6Z2]2+ 0 |
|
[IX8Z]2+ 0 |
|
[IX10]2+ 0 |
|
| X+2Z = 11 | [IX3Z4]2+ 0 |
|
[IX5Z3]2+ 0 |
|
[IX7Z2]2+ 0 |
|
[IX9Z]2+ 0 |
|
[IX11]2+ 0 |
| X+2Z = 12 | |
[IX4Z4]2+ 0 |
|
[IX6Z3]2+ 0 |
|
[IX8Z2]2+ 0 |
|
[IX10Z]2+ 0 |
|
MLXZq± grid for iodine (I) for Q = 3: [IXxLlZz]3+
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of iodine with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 |
|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [IL2]3+ 0 |
|
[IL3]3+ 0 |
|
[IL4]3+ 0 |
|
[IL5]3+ 0 |
|
[IL6]3+ 0 |
| X+2Z = 1 | |
[IL2X]3+ 0 |
|
[IL3X]3+ 0 |
|
[IL4X]3+ 0 |
|
[IL5X]3+ 0 |
|
| X+2Z = 2 | [ILX2]3+ 0 |
|
[IL2X2]3+ 0 |
|
[IL3X2]3+ 0 |
|
[IL4X2]3+ 0 |
|
[IL5X2]3+ 0 |
| X+2Z = 3 | |
[ILX3]3+ 0 |
|
[IL2X3]3+ 0 |
|
[IL3X3]3+ 0 |
|
[IL4X3]3+ 0 |
|
| X+2Z = 4 | [IX4]3+ 100% |
|
[ILX4]3+ 0 |
|
[IL2X4]3+ 0 |
|
[IL3X4]3+ 0 |
|
[IL4X4]3+ 0 |
| X+2Z = 5 | |
[IX5]3+ 0 |
|
[ILX5]3+ 0 |
|
[IL2X5]3+ 0 |
|
[IL3X5]3+ 0 |
|
| X+2Z = 6 | [IX4Z]3+ 0 |
|
[IX6]3+ 0 |
|
[ILX6]3+ 0 |
|
[IL2X6]3+ 0 |
|
[IL3X6]3+ 0 |
| X+2Z = 7 | |
[IX5Z]3+ 0 |
|
[IX7]3+ 0 |
|
[ILX7]3+ 0 |
|
[IL2X7]3+ 0 |
|
| X+2Z = 8 | [IX4Z2]3+ 0 |
|
[IX6Z]3+ 0 |
|
[IX8]3+ 0 |
|
[ILX8]3+ 0 |
|
[IL2X8]3+ 0 |
| X+2Z = 9 | |
[IX5Z2]3+ 0 |
|
[IX7Z]3+ 0 |
|
[IX9]3+ 0 |
|
[ILX9]3+ 0 |
|
| X+2Z = 10 | [IX4Z3]3+ 0 |
|
[IX6Z2]3+ 0 |
|
[IX8Z]3+ 0 |
|
[IX10]3+ 0 |
|
[ILX10]3+ 0 |
| X+2Z = 11 | |
[IX5Z3]3+ 0 |
|
[IX7Z2]3+ 0 |
|
[IX9Z]3+ 0 |
|
[IX11]3+ 0 |
|
| X+2Z = 12 | [IX4Z4]3+ 0 |
|
[IX6Z3]3+ 0 |
|
[IX8Z2]3+ 0 |
|
[IX10Z]3+ 0 |
|
[IX12]3+ 0 |
MLXZq± grid for iodine (I) for Q = 4: [IXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for xenon (Xe) for Q = -6: [XeXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for xenon (Xe) for Q = -5: [XeXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for xenon (Xe) for Q = -4: [XeXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for xenon (Xe) for Q = -3: [XeXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for xenon (Xe) for Q = -2: [XeXxLlZz]2-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of xenon with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [XeZ]2- 0 |
|
[Xe]2- 0 |
|
[XeL]2- 0 |
|
[XeL2]2- 0 |
|
[XeL3]2- 0 |
|
[XeL4]2- 0 |
| X+2Z = 1 | |
[XeZ]2- 0 |
|
[XeX]2- 0 |
|
[XeLX]2- 0 |
|
[XeL2X]2- 0 |
|
[XeL3X]2- 0 |
|
| X+2Z = 2 | [XeZ2]2- 0 |
|
[XeZ]2- 0 |
|
[XeX2]2- 0 |
|
[XeLX2]2- 0 |
|
[XeL2X2]2- 0 |
|
[XeL3X2]2- 0 |
| X+2Z = 3 | |
[XeZ2]2- 0 |
|
[XeXZ]2- 0 |
|
[XeX3]2- 0 |
|
[XeLX3]2- 0 |
|
[XeL2X3]2- 0 |
|
| X+2Z = 4 | [XeZ3]2- 0 |
|
[XeZ2]2- 0 |
|
[XeX2Z]2- 0 |
|
[XeX4]2- 0 |
|
[XeLX4]2- 0 |
|
[XeL2X4]2- 0 |
| X+2Z = 5 | |
[XeZ3]2- 0 |
|
[XeXZ2]2- 0 |
|
[XeX3Z]2- 0 |
|
[XeX5]2- 0 |
|
[XeLX5]2- 0 |
|
| X+2Z = 6 | [XeZ4]2- 0 |
|
[XeZ3]2- 0 |
|
[XeX2Z2]2- 0 |
|
[XeX4Z]2- 0 |
|
[XeX6]2- 0 |
|
[XeLX6]2- 0 |
| X+2Z = 7 | |
[XeZ4]2- 0 |
|
[XeXZ3]2- 0 |
|
[XeX3Z2]2- 0 |
|
[XeX5Z]2- 0 |
|
[XeX7]2- 0 |
|
| X+2Z = 8 | [XeZ5]2- 0 |
|
[XeZ4]2- 0 |
|
[XeX2Z3]2- 0 |
|
[XeX4Z2]2- 50% |
|
[XeX6Z]2- 0 |
|
[XeX8]2- 50% |
| X+2Z = 9 | |
[XeZ5]2- 0 |
|
[XeXZ4]2- 0 |
|
[XeX3Z3]2- 0 |
|
[XeX5Z2]2- 0 |
|
[XeX7Z]2- 0 |
|
| X+2Z = 10 | [XeZ6]2- 0 |
|
[XeZ5]2- 0 |
|
[XeX2Z4]2- 0 |
|
[XeX4Z3]2- 0 |
|
[XeX6Z2]2- 0 |
|
[XeX8Z]2- 0 |
| X+2Z = 11 | |
[XeZ6]2- 0 |
|
[XeXZ5]2- 0 |
|
[XeX3Z4]2- 0 |
|
[XeX5Z3]2- 0 |
|
[XeX7Z2]2- 0 |
|
| X+2Z = 12 | [XeZ7]2- 0 |
|
[XeZ6]2- 0 |
|
[XeX2Z5]2- 0 |
|
[XeX4Z4]2- 0 |
|
[XeX6Z3]2- 0 |
|
[XeX8Z2]2- 0 |
MLXZq± grid for xenon (Xe) for Q = -1: [XeXxLlZz]-
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of xenon with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[Xe]- 0 |
|
[XeL]- 0 |
|
[XeL2]- 0 |
|
[XeL3]- 0 |
|
[XeL4]- 0 |
|
| X+2Z = 1 | [XeZ]- 0 |
|
[XeX]- 0 |
|
[XeLX]- 0 |
|
[XeL2X]- 0 |
|
[XeL3X]- 0 |
|
[XeL4X]- 0 |
| X+2Z = 2 | |
[XeZ]- 0 |
|
[XeX2]- 0 |
|
[XeLX2]- 0 |
|
[XeL2X2]- 0 |
|
[XeL3X2]- 0 |
|
| X+2Z = 3 | [XeZ2]- 0 |
|
[XeXZ]- 0 |
|
[XeX3]- 0 |
|
[XeLX3]- 0 |
|
[XeL2X3]- 0 |
|
[XeL3X3]- 0 |
| X+2Z = 4 | |
[XeZ2]- 0 |
|
[XeX2Z]- 0 |
|
[XeX4]- 0 |
|
[XeLX4]- 0 |
|
[XeL2X4]- 0 |
|
| X+2Z = 5 | [XeZ3]- 0 |
|
[XeXZ2]- 0 |
|
[XeX3Z]- 0 |
|
[XeX5]- 50% |
|
[XeLX5]- 0 |
|
[XeL2X5]- 0 |
| X+2Z = 6 | |
[XeZ3]- 0 |
|
[XeX2Z2]- 0 |
|
[XeX4Z]- 0 |
|
[XeX6]- 0 |
|
[XeLX6]- 0 |
|
| X+2Z = 7 | [XeZ4]- 0 |
|
[XeXZ3]- 0 |
|
[XeX3Z2]- 0 |
|
[XeX5Z]- 0 |
|
[XeX7]- 50% |
|
[XeLX7]- 0 |
| X+2Z = 8 | |
[XeZ4]- 0 |
|
[XeX2Z3]- 0 |
|
[XeX4Z2]- 0 |
|
[XeX6Z]- 0 |
|
[XeX8]- 0 |
|
| X+2Z = 9 | [XeZ5]- 0 |
|
[XeXZ4]- 0 |
|
[XeX3Z3]- 0 |
|
[XeX5Z2]- 0 |
|
[XeX7Z]- 0 |
|
[XeX9]- 0 |
| X+2Z = 10 | |
[XeZ5]- 0 |
|
[XeX2Z4]- 0 |
|
[XeX4Z3]- 0 |
|
[XeX6Z2]- 0 |
|
[XeX8Z]- 0 |
|
| X+2Z = 11 | [XeZ6]- 0 |
|
[XeXZ5]- 0 |
|
[XeX3Z4]- 0 |
|
[XeX5Z3]- 0 |
|
[XeX7Z2]- 0 |
|
[XeX9Z]- 0 |
| X+2Z = 12 | |
[XeZ6]- 0 |
|
[XeX2Z5]- 0 |
|
[XeX4Z4]- 0 |
|
[XeX6Z3]- 0 |
|
[XeX8Z2]- 0 |
|
MLXZq± grid for xenon (Xe) for Q = 0: [XeXxLlZz]
The number of compounds found is 39.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of xenon with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Xe] 3% |
|
[XeL] 0 |
|
[XeL2] 0 |
|
[XeL3] 0 |
|
[XeL4] 0 |
|
[XeL5] 0 |
| X+2Z = 1 | |
[XeX] 0 |
|
[XeLX] 0 |
|
[XeL2X] 0 |
|
[XeL3X] 0 |
|
[XeL4X] 0 |
|
| X+2Z = 2 | [XeZ] 10% |
|
[XeX2] 33% |
|
[XeLX2] 0 |
|
[XeL2X2] 0 |
|
[XeL3X2] 0 |
|
[XeL4X2] 0 |
| X+2Z = 3 | |
[XeXZ] 0 |
|
[XeX3] 0 |
|
[XeLX3] 0 |
|
[XeL2X3] 0 |
|
[XeL3X3] 0 |
|
| X+2Z = 4 | [XeZ2] 0 |
|
[XeX2Z] 3% |
|
[XeX4] 13% |
|
[XeLX4] 0 |
|
[XeL2X4] 0 |
|
[XeL3X4] 0 |
| X+2Z = 5 | |
[XeXZ2] 0 |
|
[XeX3Z] 0 |
|
[XeX5] 0 |
|
[XeLX5] 0 |
|
[XeL2X5] 0 |
|
| X+2Z = 6 | [XeZ3] 3% |
|
[XeX2Z2] 8% |
|
[XeX4Z] 10% |
|
[XeX6] 18% |
|
[XeLX6] 0 |
|
[XeL2X6] 0 |
| X+2Z = 7 | |
[XeXZ3] 0 |
|
[XeX3Z2] 0 |
|
[XeX5Z] 0 |
|
[XeX7] 0 |
|
[XeLX7] 0 |
|
| X+2Z = 8 | [XeZ4] 0 |
|
[XeX2Z3] 0 |
|
[XeX4Z2] 0 |
|
[XeX6Z] 0 |
|
[XeX8] 0 |
|
[XeLX8] 0 |
| X+2Z = 9 | |
[XeXZ4] 0 |
|
[XeX3Z3] 0 |
|
[XeX5Z2] 0 |
|
[XeX7Z] 0 |
|
[XeX9] 0 |
|
| X+2Z = 10 | [XeZ5] 0 |
|
[XeX2Z4] 0 |
|
[XeX4Z3] 0 |
|
[XeX6Z2] 0 |
|
[XeX8Z] 0 |
|
[XeX10] 0 |
| X+2Z = 11 | |
[XeXZ5] 0 |
|
[XeX3Z4] 0 |
|
[XeX5Z3] 0 |
|
[XeX7Z2] 0 |
|
[XeX9Z] 0 |
|
| X+2Z = 12 | [XeZ6] 0 |
|
[XeX2Z5] 0 |
|
[XeX4Z4] 0 |
|
[XeX6Z3] 0 |
|
[XeX8Z2] 0 |
|
[XeX10Z] 0 |
MLXZq± grid for xenon (Xe) for Q = 1: [XeXxLlZz]+
The number of compounds found is 26.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of xenon with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[XeL]+ 0 |
|
[XeL2]+ 0 |
|
[XeL3]+ 0 |
|
[XeL4]+ 0 |
|
[XeL5]+ 0 |
|
| X+2Z = 1 | [XeX]+ 35% |
|
[XeLX]+ 38% |
|
[XeL2X]+ 0 |
|
[XeL3X]+ 0 |
|
[XeL4X]+ 0 |
|
[XeL5X]+ 0 |
| X+2Z = 2 | |
[XeX2]+ 0 |
|
[XeLX2]+ 0 |
|
[XeL2X2]+ 0 |
|
[XeL3X2]+ 0 |
|
[XeL4X2]+ 0 |
|
| X+2Z = 3 | [XeXZ]+ 0 |
|
[XeX3]+ 8% |
|
[XeLX3]+ 0 |
|
[XeL2X3]+ 0 |
|
[XeL3X3]+ 0 |
|
[XeL4X3]+ 0 |
| X+2Z = 4 | |
[XeX2Z]+ 0 |
|
[XeX4]+ 0 |
|
[XeLX4]+ 0 |
|
[XeL2X4]+ 0 |
|
[XeL3X4]+ 0 |
|
| X+2Z = 5 | [XeXZ2]+ 4% |
|
[XeX3Z]+ 12% |
|
[XeX5]+ 4% |
|
[XeLX5]+ 0 |
|
[XeL2X5]+ 0 |
|
[XeL3X5]+ 0 |
| X+2Z = 6 | |
[XeX2Z2]+ 0 |
|
[XeX4Z]+ 0 |
|
[XeX6]+ 0 |
|
[XeLX6]+ 0 |
|
[XeL2X6]+ 0 |
|
| X+2Z = 7 | [XeXZ3]+ 0 |
|
[XeX3Z2]+ 0 |
|
[XeX5Z]+ 0 |
|
[XeX7]+ 0 |
|
[XeLX7]+ 0 |
|
[XeL2X7]+ 0 |
| X+2Z = 8 | |
[XeX2Z3]+ 0 |
|
[XeX4Z2]+ 0 |
|
[XeX6Z]+ 0 |
|
[XeX8]+ 0 |
|
[XeLX8]+ 0 |
|
| X+2Z = 9 | [XeXZ4]+ 0 |
|
[XeX3Z3]+ 0 |
|
[XeX5Z2]+ 0 |
|
[XeX7Z]+ 0 |
|
[XeX9]+ 0 |
|
[XeLX9]+ 0 |
| X+2Z = 10 | |
[XeX2Z4]+ 0 |
|
[XeX4Z3]+ 0 |
|
[XeX6Z2]+ 0 |
|
[XeX8Z]+ 0 |
|
[XeX10]+ 0 |
|
| X+2Z = 11 | [XeXZ5]+ 0 |
|
[XeX3Z4]+ 0 |
|
[XeX5Z3]+ 0 |
|
[XeX7Z2]+ 0 |
|
[XeX9Z]+ 0 |
|
[XeX11]+ 0 |
| X+2Z = 12 | |
[XeX2Z5]+ 0 |
|
[XeX4Z4]+ 0 |
|
[XeX6Z3]+ 0 |
|
[XeX8Z2]+ 0 |
|
[XeX10Z]+ 0 |
|
MLXZq± grid for xenon (Xe) for Q = 2: [XeXxLlZz]2+
The number of compounds found is 2.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]q± classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of xenon with that [MLXZ]q± classification.
| EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [XeL]2+ 0 |
|
[XeL2]2+ 0 |
|
[XeL3]2+ 0 |
|
[XeL4]2+ 0 |
|
[XeL5]2+ 0 |
|
[XeL6]2+ 0 |
| X+2Z = 1 | |
[XeLX]2+ 0 |
|
[XeL2X]2+ 0 |
|
[XeL3X]2+ 0 |
|
[XeL4X]2+ 0 |
|
[XeL5X]2+ 0 |
|
| X+2Z = 2 | [XeX2]2+ 50% |
|
[XeLX2]2+ 0 |
|
[XeL2X2]2+ 0 |
|
[XeL3X2]2+ 0 |
|
[XeL4X2]2+ 0 |
|
[XeL5X2]2+ 0 |
| X+2Z = 3 | |
[XeX3]2+ 0 |
|
[XeLX3]2+ 0 |
|
[XeL2X3]2+ 0 |
|
[XeL3X3]2+ 0 |
|
[XeL4X3]2+ 0 |
|
| X+2Z = 4 | [XeX2Z]2+ 0 |
|
[XeX4]2+ 0 |
|
[XeLX4]2+ 0 |
|
[XeL2X4]2+ 0 |
|
[XeL3X4]2+ 0 |
|
[XeL4X4]2+ 0 |
| X+2Z = 5 | |
[XeX3Z]2+ 0 |
|
[XeX5]2+ 0 |
|
[XeLX5]2+ 0 |
|
[XeL2X5]2+ 0 |
|
[XeL3X5]2+ 0 |
|
| X+2Z = 6 | [XeX2Z2]2+ 0 |
|
[XeX4Z]2+ 0 |
|
[XeX6]2+ 50% |
|
[XeLX6]2+ 0 |
|
[XeL2X6]2+ 0 |
|
[XeL3X6]2+ 0 |
| X+2Z = 7 | |
[XeX3Z2]2+ 0 |
|
[XeX5Z]2+ 0 |
|
[XeX7]2+ 0 |
|
[XeLX7]2+ 0 |
|
[XeL2X7]2+ 0 |
|
| X+2Z = 8 | [XeX2Z3]2+ 0 |
|
[XeX4Z2]2+ 0 |
|
[XeX6Z]2+ 0 |
|
[XeX8]2+ 0 |
|
[XeLX8]2+ 0 |
|
[XeL2X8]2+ 0 |
| X+2Z = 9 | |
[XeX3Z3]2+ 0 |
|
[XeX5Z2]2+ 0 |
|
[XeX7Z]2+ 0 |
|
[XeX9]2+ 0 |
|
[XeLX9]2+ 0 |
|
| X+2Z = 10 | [XeX2Z4]2+ 0 |
|
[XeX4Z3]2+ 0 |
|
[XeX6Z2]2+ 0 |
|
[XeX8Z]2+ 0 |
|
[XeX10]2+ 0 |
|
[XeLX10]2+ 0 |
| X+2Z = 11 | |
[XeX3Z4]2+ 0 |
|
[XeX5Z3]2+ 0 |
|
[XeX7Z2]2+ 0 |
|
[XeX9Z]2+ 0 |
|
[XeX11]2+ 0 |
|
| X+2Z = 12 | [XeX2Z5]2+ 0 |
|
[XeX4Z4]2+ 0 |
|
[XeX6Z3]2+ 0 |
|
[XeX8Z2]2+ 0 |
|
[XeX10Z]2+ 0 |
|
[XeX12]2+ 0 |
MLXZq± grid for xenon (Xe) for Q = 3: [XeXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for xenon (Xe) for Q = 4: [XeXxLlZz]4+
The number of compounds found is 0.