MLXZq± grid for copper (Cu) for Q = -6: [CuXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for copper (Cu) for Q = -5: [CuXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for copper (Cu) for Q = -4: [CuXxLlZz]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 copper with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[Cu]4- 0 |
|
[CuL]4- 0 |
|
[CuL2]4- 0 |
|
[CuL3]4- 0 |
| X+2Z = 1 | [CuZ]4- 0 |
|
[CuX]4- 0 |
|
[CuLX]4- 0 |
|
[CuL2X]4- 0 |
|
| X+2Z = 2 | |
[CuZ]4- 0 |
|
[CuX2]4- 0 |
|
[CuLX2]4- 0 |
|
[CuL2X2]4- 0 |
| X+2Z = 3 | [CuZ2]4- 0 |
|
[CuXZ]4- 0 |
|
[CuX3]4- 0 |
|
[CuLX3]4- 0 |
|
| X+2Z = 4 | |
[CuZ2]4- 0 |
|
[CuX2Z]4- 0 |
|
[CuX4]4- 0 |
|
[CuLX4]4- 0 |
| X+2Z = 5 | [CuZ3]4- 0 |
|
[CuXZ2]4- 0 |
|
[CuX3Z]4- 0 |
|
[CuX5]4- 0 |
|
| X+2Z = 6 | |
[CuZ3]4- 0 |
|
[CuX2Z2]4- 0 |
|
[CuX4Z]4- 0 |
|
[CuX6]4- 100% |
| X+2Z = 7 | [CuZ4]4- 0 |
|
[CuXZ3]4- 0 |
|
[CuX3Z2]4- 0 |
|
[CuX5Z]4- 0 |
|
| X+2Z = 8 | |
[CuZ4]4- 0 |
|
[CuX2Z3]4- 0 |
|
[CuX4Z2]4- 0 |
|
[CuX6Z]4- 0 |
| X+2Z = 9 | [CuZ5]4- 0 |
|
[CuXZ4]4- 0 |
|
[CuX3Z3]4- 0 |
|
[CuX5Z2]4- 0 |
|
| X+2Z = 10 | |
[CuZ5]4- 0 |
|
[CuX2Z4]4- 0 |
|
[CuX4Z3]4- 0 |
|
[CuX6Z2]4- 0 |
| X+2Z = 11 | [CuZ6]4- 0 |
|
[CuXZ5]4- 0 |
|
[CuX3Z4]4- 0 |
|
[CuX5Z3]4- 0 |
|
| X+2Z = 12 | |
[CuZ6]4- 0 |
|
[CuX2Z5]4- 0 |
|
[CuX4Z4]4- 0 |
|
[CuX6Z3]4- 0 |
MLXZq± grid for copper (Cu) for Q = -3: [CuXxLlZz]3-
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 copper with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Cu]3- 0 |
|
[CuL]3- 0 |
|
[CuL2]3- 0 |
|
[CuL3]3- 0 |
|
| X+2Z = 1 | |
[CuX]3- 0 |
|
[CuLX]3- 0 |
|
[CuL2X]3- 0 |
|
[CuL3X]3- 0 |
| X+2Z = 2 | [CuZ]3- 0 |
|
[CuX2]3- 0 |
|
[CuLX2]3- 0 |
|
[CuL2X2]3- 0 |
|
| X+2Z = 3 | |
[CuXZ]3- 0 |
|
[CuX3]3- 0 |
|
[CuLX3]3- 0 |
|
[CuL2X3]3- 0 |
| X+2Z = 4 | [CuZ2]3- 0 |
|
[CuX2Z]3- 0 |
|
[CuX4]3- 50% |
|
[CuLX4]3- 0 |
|
| X+2Z = 5 | |
[CuXZ2]3- 0 |
|
[CuX3Z]3- 0 |
|
[CuX5]3- 25% |
|
[CuLX5]3- 0 |
| X+2Z = 6 | [CuZ3]3- 0 |
|
[CuX2Z2]3- 0 |
|
[CuX4Z]3- 0 |
|
[CuX6]3- 25% |
|
| X+2Z = 7 | |
[CuXZ3]3- 0 |
|
[CuX3Z2]3- 0 |
|
[CuX5Z]3- 0 |
|
[CuX7]3- 0 |
| X+2Z = 8 | [CuZ4]3- 0 |
|
[CuX2Z3]3- 0 |
|
[CuX4Z2]3- 0 |
|
[CuX6Z]3- 0 |
|
| X+2Z = 9 | |
[CuXZ4]3- 0 |
|
[CuX3Z3]3- 0 |
|
[CuX5Z2]3- 0 |
|
[CuX7Z]3- 0 |
| X+2Z = 10 | [CuZ5]3- 0 |
|
[CuX2Z4]3- 0 |
|
[CuX4Z3]3- 0 |
|
[CuX6Z2]3- 0 |
|
| X+2Z = 11 | |
[CuXZ5]3- 0 |
|
[CuX3Z4]3- 0 |
|
[CuX5Z3]3- 0 |
|
[CuX7Z2]3- 0 |
| X+2Z = 12 | [CuZ6]3- 0 |
|
[CuX2Z5]3- 0 |
|
[CuX4Z4]3- 0 |
|
[CuX6Z3]3- 0 |
|
MLXZq± grid for copper (Cu) for Q = -2: [CuXxLlZz]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 copper with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[CuL]2- 0 |
|
[CuL2]2- 0 |
|
[CuL3]2- 0 |
|
[CuL4]2- 0 |
| X+2Z = 1 | [CuX]2- 0 |
|
[CuLX]2- 0 |
|
[CuL2X]2- 0 |
|
[CuL3X]2- 0 |
|
| X+2Z = 2 | |
[CuX2]2- 0 |
|
[CuLX2]2- 0 |
|
[CuL2X2]2- 0 |
|
[CuL3X2]2- 0 |
| X+2Z = 3 | [CuXZ]2- 0 |
|
[CuX3]2- 33% |
|
[CuLX3]2- 0 |
|
[CuL2X3]2- 0 |
|
| X+2Z = 4 | |
[CuX2Z]2- 0 |
|
[CuX4]2- 39% |
|
[CuLX4]2- 6% |
|
[CuL2X4]2- 17% |
| X+2Z = 5 | [CuXZ2]2- 0 |
|
[CuX3Z]2- 0 |
|
[CuX5]2- 0 |
|
[CuLX5]2- 0 |
|
| X+2Z = 6 | |
[CuX2Z2]2- 0 |
|
[CuX4Z]2- 0 |
|
[CuX6]2- 6% |
|
[CuLX6]2- 0 |
| X+2Z = 7 | [CuXZ3]2- 0 |
|
[CuX3Z2]2- 0 |
|
[CuX5Z]2- 0 |
|
[CuX7]2- 0 |
|
| X+2Z = 8 | |
[CuX2Z3]2- 0 |
|
[CuX4Z2]2- 0 |
|
[CuX6Z]2- 0 |
|
[CuX8]2- 0 |
| X+2Z = 9 | [CuXZ4]2- 0 |
|
[CuX3Z3]2- 0 |
|
[CuX5Z2]2- 0 |
|
[CuX7Z]2- 0 |
|
| X+2Z = 10 | |
[CuX2Z4]2- 0 |
|
[CuX4Z3]2- 0 |
|
[CuX6Z2]2- 0 |
|
[CuX8Z]2- 0 |
| X+2Z = 11 | [CuXZ5]2- 0 |
|
[CuX3Z4]2- 0 |
|
[CuX5Z3]2- 0 |
|
[CuX7Z2]2- 0 |
|
| X+2Z = 12 | |
[CuX2Z5]2- 0 |
|
[CuX4Z4]2- 0 |
|
[CuX6Z3]2- 0 |
|
[CuX8Z2]2- 0 |
MLXZq± grid for copper (Cu) for Q = -1: [CuXxLlZz]-
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 copper with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [CuL]- 0 |
|
[CuL2]- 0 |
|
[CuL3]- 0 |
|
[CuL4]- 0 |
|
| X+2Z = 1 | |
[CuLX]- 0 |
|
[CuL2X]- 0 |
|
[CuL3X]- 0 |
|
[CuL4X]- 0 |
| X+2Z = 2 | [CuX2]- 34% |
|
[CuLX2]- 11% |
|
[CuL2X2]- 11% |
|
[CuL3X2]- 0 |
|
| X+2Z = 3 | |
[CuX3]- 9% |
|
[CuLX3]- 17% |
|
[CuL2X3]- 3% |
|
[CuL3X3]- 6% |
| X+2Z = 4 | [CuX2Z]- 0 |
|
[CuX4]- 9% |
|
[CuLX4]- 0 |
|
[CuL2X4]- 0 |
|
| X+2Z = 5 | |
[CuX3Z]- 0 |
|
[CuX5]- 0 |
|
[CuLX5]- 0 |
|
[CuL2X5]- 0 |
| X+2Z = 6 | [CuX2Z2]- 0 |
|
[CuX4Z]- 0 |
|
[CuX6]- 0 |
|
[CuLX6]- 0 |
|
| X+2Z = 7 | |
[CuX3Z2]- 0 |
|
[CuX5Z]- 0 |
|
[CuX7]- 0 |
|
[CuLX7]- 0 |
| X+2Z = 8 | [CuX2Z3]- 0 |
|
[CuX4Z2]- 0 |
|
[CuX6Z]- 0 |
|
[CuX8]- 0 |
|
| X+2Z = 9 | |
[CuX3Z3]- 0 |
|
[CuX5Z2]- 0 |
|
[CuX7Z]- 0 |
|
[CuX9]- 0 |
| X+2Z = 10 | [CuX2Z4]- 0 |
|
[CuX4Z3]- 0 |
|
[CuX6Z2]- 0 |
|
[CuX8Z]- 0 |
|
| X+2Z = 11 | |
[CuX3Z4]- 0 |
|
[CuX5Z3]- 0 |
|
[CuX7Z2]- 0 |
|
[CuX9Z]- 0 |
| X+2Z = 12 | [CuX2Z5]- 0 |
|
[CuX4Z4]- 0 |
|
[CuX6Z3]- 0 |
|
[CuX8Z2]- 0 |
|
MLXZq± grid for copper (Cu) for Q = 0: [CuXxLlZz]
The number of compounds found is 307.
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 copper with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[CuL2] 0 |
|
[CuL3] 0 |
|
[CuL4] 0 |
|
[CuL5] 0 |
| X+2Z = 1 | [CuLX] 3% |
|
[CuL2X] 13% |
|
[CuL3X] 37% |
|
[CuL4X] 1% |
|
| X+2Z = 2 | |
[CuLX2] 0 |
|
[CuL2X2] 15% |
|
[CuL3X2] 13% |
|
[CuL4X2] 12% |
| X+2Z = 3 | [CuX3] 0 |
|
[CuLX3] 0.3% |
|
[CuL2X3] 0 |
|
[CuL3X3] 6% |
|
| X+2Z = 4 | |
[CuX4] 0 |
|
[CuLX4] 0 |
|
[CuL2X4] 0 |
|
[CuL3X4] 0 |
| X+2Z = 5 | [CuX3Z] 0 |
|
[CuX5] 0 |
|
[CuLX5] 0 |
|
[CuL2X5] 0 |
|
| X+2Z = 6 | |
[CuX4Z] 0 |
|
[CuX6] 0 |
|
[CuLX6] 0 |
|
[CuL2X6] 0 |
| X+2Z = 7 | [CuX3Z2] 0 |
|
[CuX5Z] 0 |
|
[CuX7] 0 |
|
[CuLX7] 0 |
|
| X+2Z = 8 | |
[CuX4Z2] 0 |
|
[CuX6Z] 0 |
|
[CuX8] 0 |
|
[CuLX8] 0 |
| X+2Z = 9 | [CuX3Z3] 0 |
|
[CuX5Z2] 0 |
|
[CuX7Z] 0 |
|
[CuX9] 0 |
|
| X+2Z = 10 | |
[CuX4Z3] 0 |
|
[CuX6Z2] 0 |
|
[CuX8Z] 0 |
|
[CuX10] 0 |
| X+2Z = 11 | [CuX3Z4] 0 |
|
[CuX5Z3] 0 |
|
[CuX7Z2] 0 |
|
[CuX9Z] 0 |
|
| X+2Z = 12 | |
[CuX4Z4] 0 |
|
[CuX6Z3] 0 |
|
[CuX8Z2] 0 |
|
[CuX10Z] 0 |
MLXZq± grid for copper (Cu) for Q = 1: [CuXxLlZz]+
The number of compounds found is 98.
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 copper with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [CuL2]+ 5% |
|
[CuL3]+ 11% |
|
[CuL4]+ 33% |
|
[CuL5]+ 1% |
|
| X+2Z = 1 | |
[CuL2X]+ 0 |
|
[CuL3X]+ 5% |
|
[CuL4X]+ 41% |
|
[CuL5X]+ 3% |
| X+2Z = 2 | [CuLX2]+ 0 |
|
[CuL2X2]+ 0 |
|
[CuL3X2]+ 0 |
|
[CuL4X2]+ 1% |
|
| X+2Z = 3 | |
[CuLX3]+ 0 |
|
[CuL2X3]+ 0 |
|
[CuL3X3]+ 0 |
|
[CuL4X3]+ 0 |
| X+2Z = 4 | [CuX4]+ 0 |
|
[CuLX4]+ 0 |
|
[CuL2X4]+ 0 |
|
[CuL3X4]+ 0 |
|
| X+2Z = 5 | |
[CuX5]+ 0 |
|
[CuLX5]+ 0 |
|
[CuL2X5]+ 0 |
|
[CuL3X5]+ 0 |
| X+2Z = 6 | [CuX4Z]+ 0 |
|
[CuX6]+ 0 |
|
[CuLX6]+ 0 |
|
[CuL2X6]+ 0 |
|
| X+2Z = 7 | |
[CuX5Z]+ 0 |
|
[CuX7]+ 0 |
|
[CuLX7]+ 0 |
|
[CuL2X7]+ 0 |
| X+2Z = 8 | [CuX4Z2]+ 0 |
|
[CuX6Z]+ 0 |
|
[CuX8]+ 0 |
|
[CuLX8]+ 0 |
|
| X+2Z = 9 | |
[CuX5Z2]+ 0 |
|
[CuX7Z]+ 0 |
|
[CuX9]+ 0 |
|
[CuLX9]+ 0 |
| X+2Z = 10 | [CuX4Z3]+ 0 |
|
[CuX6Z2]+ 0 |
|
[CuX8Z]+ 0 |
|
[CuX10]+ 0 |
|
| X+2Z = 11 | |
[CuX5Z3]+ 0 |
|
[CuX7Z2]+ 0 |
|
[CuX9Z]+ 0 |
|
[CuX11]+ 0 |
| X+2Z = 12 | [CuX4Z4]+ 0 |
|
[CuX6Z3]+ 0 |
|
[CuX8Z2]+ 0 |
|
[CuX10Z]+ 0 |
|
MLXZq± grid for copper (Cu) for Q = 2: [CuXxLlZz]2+
The number of compounds found is 60.
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 copper with that [MLXZ]q± classification.
| EN➝ | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 |
|---|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[CuL3]2+ 0 |
|
[CuL4]2+ 17% |
|
[CuL5]2+ 40% |
|
[CuL6]2+ 43% |
| X+2Z = 1 | [CuL2X]2+ 0 |
|
[CuL3X]2+ 0 |
|
[CuL4X]2+ 0 |
|
[CuL5X]2+ 0 |
|
| X+2Z = 2 | |
[CuL2X2]2+ 0 |
|
[CuL3X2]2+ 0 |
|
[CuL4X2]2+ 0 |
|
[CuL5X2]2+ 0 |
| X+2Z = 3 | [CuLX3]2+ 0 |
|
[CuL2X3]2+ 0 |
|
[CuL3X3]2+ 0 |
|
[CuL4X3]2+ 0 |
|
| X+2Z = 4 | |
[CuLX4]2+ 0 |
|
[CuL2X4]2+ 0 |
|
[CuL3X4]2+ 0 |
|
[CuL4X4]2+ 0 |
| X+2Z = 5 | [CuX5]2+ 0 |
|
[CuLX5]2+ 0 |
|
[CuL2X5]2+ 0 |
|
[CuL3X5]2+ 0 |
|
| X+2Z = 6 | |
[CuX6]2+ 0 |
|
[CuLX6]2+ 0 |
|
[CuL2X6]2+ 0 |
|
[CuL3X6]2+ 0 |
| X+2Z = 7 | [CuX5Z]2+ 0 |
|
[CuX7]2+ 0 |
|
[CuLX7]2+ 0 |
|
[CuL2X7]2+ 0 |
|
| X+2Z = 8 | |
[CuX6Z]2+ 0 |
|
[CuX8]2+ 0 |
|
[CuLX8]2+ 0 |
|
[CuL2X8]2+ 0 |
| X+2Z = 9 | [CuX5Z2]2+ 0 |
|
[CuX7Z]2+ 0 |
|
[CuX9]2+ 0 |
|
[CuLX9]2+ 0 |
|
| X+2Z = 10 | |
[CuX6Z2]2+ 0 |
|
[CuX8Z]2+ 0 |
|
[CuX10]2+ 0 |
|
[CuLX10]2+ 0 |
| X+2Z = 11 | [CuX5Z3]2+ 0 |
|
[CuX7Z2]2+ 0 |
|
[CuX9Z]2+ 0 |
|
[CuX11]2+ 0 |
|
| X+2Z = 12 | |
[CuX6Z3]2+ 0 |
|
[CuX8Z2]2+ 0 |
|
[CuX10Z]2+ 0 |
|
[CuX12]2+ 0 |
MLXZq± grid for copper (Cu) for Q = 3: [CuXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for copper (Cu) for Q = 4: [CuXxLlZz]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 gold (Au) for Q = -6: [AuXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for gold (Au) for Q = -5: [AuXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for gold (Au) for Q = -4: [AuXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for gold (Au) for Q = -3: [AuXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for gold (Au) for Q = -2: [AuXxLlZz]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 gold with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[Au]2- 0 |
|
[AuL]2- 0 |
|
[AuL2]2- 0 |
|
| X+2Z = 1 | [AuZ]2- 0 |
|
[AuX]2- 0 |
|
[AuLX]2- 0 |
|
[AuL2X]2- 0 |
| X+2Z = 2 | |
[AuZ]2- 0 |
|
[AuX2]2- 0 |
|
[AuLX2]2- 0 |
|
| X+2Z = 3 | [AuZ2]2- 0 |
|
[AuXZ]2- 0 |
|
[AuX3]2- 100% |
|
[AuLX3]2- 0 |
| X+2Z = 4 | |
[AuZ2]2- 0 |
|
[AuX2Z]2- 0 |
|
[AuX4]2- 0 |
|
| X+2Z = 5 | [AuZ3]2- 0 |
|
[AuXZ2]2- 0 |
|
[AuX3Z]2- 0 |
|
[AuX5]2- 0 |
| X+2Z = 6 | |
[AuZ3]2- 0 |
|
[AuX2Z2]2- 0 |
|
[AuX4Z]2- 0 |
|
| X+2Z = 7 | [AuZ4]2- 0 |
|
[AuXZ3]2- 0 |
|
[AuX3Z2]2- 0 |
|
[AuX5Z]2- 0 |
| X+2Z = 8 | |
[AuZ4]2- 0 |
|
[AuX2Z3]2- 0 |
|
[AuX4Z2]2- 0 |
|
| X+2Z = 9 | [AuZ5]2- 0 |
|
[AuXZ4]2- 0 |
|
[AuX3Z3]2- 0 |
|
[AuX5Z2]2- 0 |
| X+2Z = 10 | |
[AuZ5]2- 0 |
|
[AuX2Z4]2- 0 |
|
[AuX4Z3]2- 0 |
|
| X+2Z = 11 | [AuZ6]2- 0 |
|
[AuXZ5]2- 0 |
|
[AuX3Z4]2- 0 |
|
[AuX5Z3]2- 0 |
| X+2Z = 12 | |
[AuZ6]2- 0 |
|
[AuX2Z5]2- 0 |
|
[AuX4Z4]2- 0 |
|
MLXZq± grid for gold (Au) for Q = -1: [AuXxLlZz]-
The number of compounds found is 78.
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 gold with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [Au]- 0 |
|
[AuL]- 0 |
|
[AuL2]- 0 |
|
[AuL3]- 0 |
| X+2Z = 1 | |
[AuX]- 0 |
|
[AuLX]- 0 |
|
[AuL2X]- 0 |
|
| X+2Z = 2 | [AuZ]- 0 |
|
[AuX2]- 44% |
|
[AuLX2]- 0 |
|
[AuL2X2]- 1% |
| X+2Z = 3 | |
[AuXZ]- 0 |
|
[AuX3]- 0 |
|
[AuLX3]- 0 |
|
| X+2Z = 4 | [AuZ2]- 0 |
|
[AuX2Z]- 0 |
|
[AuX4]- 54% |
|
[AuLX4]- 0 |
| X+2Z = 5 | |
[AuXZ2]- 0 |
|
[AuX3Z]- 0 |
|
[AuX5]- 0 |
|
| X+2Z = 6 | [AuZ3]- 0 |
|
[AuX2Z2]- 0 |
|
[AuX4Z]- 0 |
|
[AuX6]- 1% |
| X+2Z = 7 | |
[AuXZ3]- 0 |
|
[AuX3Z2]- 0 |
|
[AuX5Z]- 0 |
|
| X+2Z = 8 | [AuZ4]- 0 |
|
[AuX2Z3]- 0 |
|
[AuX4Z2]- 0 |
|
[AuX6Z]- 0 |
| X+2Z = 9 | |
[AuXZ4]- 0 |
|
[AuX3Z3]- 0 |
|
[AuX5Z2]- 0 |
|
| X+2Z = 10 | [AuZ5]- 0 |
|
[AuX2Z4]- 0 |
|
[AuX4Z3]- 0 |
|
[AuX6Z2]- 0 |
| X+2Z = 11 | |
[AuXZ5]- 0 |
|
[AuX3Z4]- 0 |
|
[AuX5Z3]- 0 |
|
| X+2Z = 12 | [AuZ6]- 0 |
|
[AuX2Z5]- 0 |
|
[AuX4Z4]- 0 |
|
[AuX6Z3]- 0 |
MLXZq± grid for gold (Au) for Q = 0: [AuXxLlZz]
The number of compounds found is 291.
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 gold with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[AuL] 0 |
|
[AuL2] 0 |
|
[AuL3] 0 |
|
| X+2Z = 1 | [AuX] 0.3% |
|
[AuLX] 61% |
|
[AuL2X] 3% |
|
[AuL3X] 2% |
| X+2Z = 2 | |
[AuX2] 0 |
|
[AuLX2] 0 |
|
[AuL2X2] 1% |
|
| X+2Z = 3 | [AuXZ] 0 |
|
[AuX3] 1% |
|
[AuLX3] 31% |
|
[AuL2X3] 0.3% |
| X+2Z = 4 | |
[AuX2Z] 0 |
|
[AuX4] 0.3% |
|
[AuLX4] 0 |
|
| X+2Z = 5 | [AuXZ2] 0 |
|
[AuX3Z] 0 |
|
[AuX5] 0 |
|
[AuLX5] 0.3% |
| X+2Z = 6 | |
[AuX2Z2] 0 |
|
[AuX4Z] 0 |
|
[AuX6] 0 |
|
| X+2Z = 7 | [AuXZ3] 0 |
|
[AuX3Z2] 0 |
|
[AuX5Z] 0 |
|
[AuX7] 0 |
| X+2Z = 8 | |
[AuX2Z3] 0 |
|
[AuX4Z2] 0 |
|
[AuX6Z] 0 |
|
| X+2Z = 9 | [AuXZ4] 0 |
|
[AuX3Z3] 0 |
|
[AuX5Z2] 0 |
|
[AuX7Z] 0 |
| X+2Z = 10 | |
[AuX2Z4] 0 |
|
[AuX4Z3] 0 |
|
[AuX6Z2] 0 |
|
| X+2Z = 11 | [AuXZ5] 0 |
|
[AuX3Z4] 0 |
|
[AuX5Z3] 0 |
|
[AuX7Z2] 0 |
| X+2Z = 12 | |
[AuX2Z5] 0 |
|
[AuX4Z4] 0 |
|
[AuX6Z3] 0 |
|
MLXZq± grid for gold (Au) for Q = 1: [AuXxLlZz]+
The number of compounds found is 121.
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 gold with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [AuL]+ 0 |
|
[AuL2]+ 60% |
|
[AuL3]+ 7% |
|
[AuL4]+ 10% |
| X+2Z = 1 | |
[AuLX]+ 0 |
|
[AuL2X]+ 0 |
|
[AuL3X]+ 0 |
|
| X+2Z = 2 | [AuX2]+ 0 |
|
[AuLX2]+ 0 |
|
[AuL2X2]+ 24% |
|
[AuL3X2]+ 0 |
| X+2Z = 3 | |
[AuX3]+ 0 |
|
[AuLX3]+ 0 |
|
[AuL2X3]+ 0 |
|
| X+2Z = 4 | [AuX2Z]+ 0 |
|
[AuX4]+ 0 |
|
[AuLX4]+ 0 |
|
[AuL2X4]+ 0 |
| X+2Z = 5 | |
[AuX3Z]+ 0 |
|
[AuX5]+ 0 |
|
[AuLX5]+ 0 |
|
| X+2Z = 6 | [AuX2Z2]+ 0 |
|
[AuX4Z]+ 0 |
|
[AuX6]+ 0 |
|
[AuLX6]+ 0 |
| X+2Z = 7 | |
[AuX3Z2]+ 0 |
|
[AuX5Z]+ 0 |
|
[AuX7]+ 0 |
|
| X+2Z = 8 | [AuX2Z3]+ 0 |
|
[AuX4Z2]+ 0 |
|
[AuX6Z]+ 0 |
|
[AuX8]+ 0 |
| X+2Z = 9 | |
[AuX3Z3]+ 0 |
|
[AuX5Z2]+ 0 |
|
[AuX7Z]+ 0 |
|
| X+2Z = 10 | [AuX2Z4]+ 0 |
|
[AuX4Z3]+ 0 |
|
[AuX6Z2]+ 0 |
|
[AuX8Z]+ 0 |
| X+2Z = 11 | |
[AuX3Z4]+ 0 |
|
[AuX5Z3]+ 0 |
|
[AuX7Z2]+ 0 |
|
| X+2Z = 12 | [AuX2Z5]+ 0 |
|
[AuX4Z4]+ 0 |
|
[AuX6Z3]+ 0 |
|
[AuX8Z2]+ 0 |
MLXZq± grid for gold (Au) for Q = 2: [AuXxLlZz]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 gold with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | |
[AuL2]2+ 0 |
|
[AuL3]2+ 0 |
|
[AuL4]2+ 40% |
|
| X+2Z = 1 | [AuLX]2+ 0 |
|
[AuL2X]2+ 0 |
|
[AuL3X]2+ 60% |
|
[AuL4X]2+ 0 |
| X+2Z = 2 | |
[AuLX2]2+ 0 |
|
[AuL2X2]2+ 0 |
|
[AuL3X2]2+ 0 |
|
| X+2Z = 3 | [AuX3]2+ 0 |
|
[AuLX3]2+ 0 |
|
[AuL2X3]2+ 0 |
|
[AuL3X3]2+ 0 |
| X+2Z = 4 | |
[AuX4]2+ 0 |
|
[AuLX4]2+ 0 |
|
[AuL2X4]2+ 0 |
|
| X+2Z = 5 | [AuX3Z]2+ 0 |
|
[AuX5]2+ 0 |
|
[AuLX5]2+ 0 |
|
[AuL2X5]2+ 0 |
| X+2Z = 6 | |
[AuX4Z]2+ 0 |
|
[AuX6]2+ 0 |
|
[AuLX6]2+ 0 |
|
| X+2Z = 7 | [AuX3Z2]2+ 0 |
|
[AuX5Z]2+ 0 |
|
[AuX7]2+ 0 |
|
[AuLX7]2+ 0 |
| X+2Z = 8 | |
[AuX4Z2]2+ 0 |
|
[AuX6Z]2+ 0 |
|
[AuX8]2+ 0 |
|
| X+2Z = 9 | [AuX3Z3]2+ 0 |
|
[AuX5Z2]2+ 0 |
|
[AuX7Z]2+ 0 |
|
[AuX9]2+ 0 |
| X+2Z = 10 | |
[AuX4Z3]2+ 0 |
|
[AuX6Z2]2+ 0 |
|
[AuX8Z]2+ 0 |
|
| X+2Z = 11 | [AuX3Z4]2+ 0 |
|
[AuX5Z3]2+ 0 |
|
[AuX7Z2]2+ 0 |
|
[AuX9Z]2+ 0 |
| X+2Z = 12 | |
[AuX4Z4]2+ 0 |
|
[AuX6Z3]2+ 0 |
|
[AuX8Z2]2+ 0 |
|
MLXZq± grid for gold (Au) for Q = 3: [AuXxLlZz]3+
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 gold with that [MLXZ]q± classification.
| EN➝ | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
|---|---|---|---|---|---|---|---|
| X+2Z = 0 | [AuL2]3+ 0 |
|
[AuL3]3+ 0 |
|
[AuL4]3+ 100% |
|
[AuL5]3+ 0 |
| X+2Z = 1 | |
[AuL2X]3+ 0 |
|
[AuL3X]3+ 0 |
|
[AuL4X]3+ 0 |
|
| X+2Z = 2 | [AuLX2]3+ 0 |
|
[AuL2X2]3+ 0 |
|
[AuL3X2]3+ 0 |
|
[AuL4X2]3+ 0 |
| X+2Z = 3 | |
[AuLX3]3+ 0 |
|
[AuL2X3]3+ 0 |
|
[AuL3X3]3+ 0 |
|
| X+2Z = 4 | [AuX4]3+ 0 |
|
[AuLX4]3+ 0 |
|
[AuL2X4]3+ 0 |
|
[AuL3X4]3+ 0 |
| X+2Z = 5 | |
[AuX5]3+ 0 |
|
[AuLX5]3+ 0 |
|
[AuL2X5]3+ 0 |
|
| X+2Z = 6 | [AuX4Z]3+ 0 |
|
[AuX6]3+ 0 |
|
[AuLX6]3+ 0 |
|
[AuL2X6]3+ 0 |
| X+2Z = 7 | |
[AuX5Z]3+ 0 |
|
[AuX7]3+ 0 |
|
[AuLX7]3+ 0 |
|
| X+2Z = 8 | [AuX4Z2]3+ 0 |
|
[AuX6Z]3+ 0 |
|
[AuX8]3+ 0 |
|
[AuLX8]3+ 0 |
| X+2Z = 9 | |
[AuX5Z2]3+ 0 |
|
[AuX7Z]3+ 0 |
|
[AuX9]3+ 0 |
|
| X+2Z = 10 | [AuX4Z3]3+ 0 |
|
[AuX6Z2]3+ 0 |
|
[AuX8Z]3+ 0 |
|
[AuX10]3+ 0 |
| X+2Z = 11 | |
[AuX5Z3]3+ 0 |
|
[AuX7Z2]3+ 0 |
|
[AuX9Z]3+ 0 |
|
| X+2Z = 12 | [AuX4Z4]3+ 0 |
|
[AuX6Z3]3+ 0 |
|
[AuX8Z2]3+ 0 |
|
[AuX10Z]3+ 0 |
MLXZq± grid for gold (Au) for Q = 4: [AuXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = -6: [RgXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = -5: [RgXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = -4: [RgXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = -3: [RgXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = -2: [RgXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = -1: [RgXxLlZz]-
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = 0: [RgXxLlZz]
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = 1: [RgXxLlZz]+
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = 2: [RgXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = 3: [RgXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for roentgenium (Rg) for Q = 4: [RgXxLlZz]4+
The number of compounds found is 0.