MLXZq± grid for carbon (C) for Q = -6: [CXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for carbon (C) for Q = -5: [CXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for carbon (C) for Q = -4: [CXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for carbon (C) for Q = -3: [CXxLlZz]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 carbon with that [MLXZ]q± classification.
EN➝ | 6 | 7 | 8 |
---|---|---|---|
X+2Z = 0 | |
[C]3- 0 |
|
X+2Z = 1 | [CZ]3- 0 |
|
[CX]3- 0 |
X+2Z = 2 | |
[CZ]3- 0 |
|
X+2Z = 3 | [CZ2]3- 0 |
|
[CXZ]3- 0 |
X+2Z = 4 | |
[CZ2]3- 0 |
|
X+2Z = 5 | [CZ3]3- 0 |
|
[CXZ2]3- 0 |
X+2Z = 6 | |
[CZ3]3- 0 |
|
X+2Z = 7 | [CZ4]3- 0 |
|
[CXZ3]3- 100% |
X+2Z = 8 | |
[CZ4]3- 0 |
|
X+2Z = 9 | [CZ5]3- 0 |
|
[CXZ4]3- 0 |
X+2Z = 10 | |
[CZ5]3- 0 |
|
X+2Z = 11 | [CZ6]3- 0 |
|
[CXZ5]3- 0 |
X+2Z = 12 | |
[CZ6]3- 0 |
|
MLXZq± grid for carbon (C) for Q = -2: [CXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for carbon (C) for Q = -1: [CXxLlZz]-
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 carbon with that [MLXZ]q± classification.
EN➝ | 6 | 7 | 8 |
---|---|---|---|
X+2Z = 0 | |
[CL]- 0 |
|
X+2Z = 1 | [CX]- 0 |
|
[CLX]- 0 |
X+2Z = 2 | |
[CX2]- 0 |
|
X+2Z = 3 | [CXZ]- 0 |
|
[CX3]- 100% |
X+2Z = 4 | |
[CX2Z]- 0 |
|
X+2Z = 5 | [CXZ2]- 0 |
|
[CX3Z]- 0 |
X+2Z = 6 | |
[CX2Z2]- 0 |
|
X+2Z = 7 | [CXZ3]- 0 |
|
[CX3Z2]- 0 |
X+2Z = 8 | |
[CX2Z3]- 0 |
|
X+2Z = 9 | [CXZ4]- 0 |
|
[CX3Z3]- 0 |
X+2Z = 10 | |
[CX2Z4]- 0 |
|
X+2Z = 11 | [CXZ5]- 0 |
|
[CX3Z4]- 0 |
X+2Z = 12 | |
[CX2Z5]- 0 |
|
MLXZq± grid for carbon (C) for Q = 0: [CXxLlZz]
The number of compounds found is 12356.
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 carbon with that [MLXZ]q± classification.
EN➝ | 6 | 7 | 8 |
---|---|---|---|
X+2Z = 0 | [CL] 0 |
|
[CL2] 0.02% |
X+2Z = 1 | |
[CLX] 0 |
|
X+2Z = 2 | [CX2] 0.01% |
|
[CLX2] 0.1% |
X+2Z = 3 | |
[CX3] 0.01% |
|
X+2Z = 4 | [CX2Z] 0 |
|
[CX4] 100% |
X+2Z = 5 | |
[CX3Z] 0 |
|
X+2Z = 6 | [CX2Z2] 0 |
|
[CX4Z] 0 |
X+2Z = 7 | |
[CX3Z2] 0 |
|
X+2Z = 8 | [CX2Z3] 0 |
|
[CX4Z2] 0 |
X+2Z = 9 | |
[CX3Z3] 0 |
|
X+2Z = 10 | [CX2Z4] 0 |
|
[CX4Z3] 0 |
X+2Z = 11 | |
[CX3Z4] 0 |
|
X+2Z = 12 | [CX2Z5] 0 |
|
[CX4Z4] 0 |
MLXZq± grid for carbon (C) for Q = 1: [CXxLlZz]+
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 carbon with that [MLXZ]q± classification.
EN➝ | 6 | 7 | 8 |
---|---|---|---|
X+2Z = 0 | |
[CL2]+ 0 |
|
X+2Z = 1 | [CLX]+ 0 |
|
[CL2X]+ 8% |
X+2Z = 2 | |
[CLX2]+ 0 |
|
X+2Z = 3 | [CX3]+ 4% |
|
[CLX3]+ 88% |
X+2Z = 4 | |
[CX4]+ 0 |
|
X+2Z = 5 | [CX3Z]+ 0 |
|
[CX5]+ 0 |
X+2Z = 6 | |
[CX4Z]+ 0 |
|
X+2Z = 7 | [CX3Z2]+ 0 |
|
[CX5Z]+ 0 |
X+2Z = 8 | |
[CX4Z2]+ 0 |
|
X+2Z = 9 | [CX3Z3]+ 0 |
|
[CX5Z2]+ 0 |
X+2Z = 10 | |
[CX4Z3]+ 0 |
|
X+2Z = 11 | [CX3Z4]+ 0 |
|
[CX5Z3]+ 0 |
X+2Z = 12 | |
[CX4Z4]+ 0 |
|
MLXZq± grid for carbon (C) for Q = 2: [CXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for carbon (C) for Q = 3: [CXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for carbon (C) for Q = 4: [CXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for silicon (Si) for Q = -6: [SiXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for silicon (Si) for Q = -5: [SiXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for silicon (Si) for Q = -4: [SiXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for silicon (Si) for Q = -3: [SiXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for silicon (Si) for Q = -2: [SiXxLlZz]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 silicon with that [MLXZ]q± classification.
EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|
X+2Z = 0 | [SiL]2- 0 |
|
[SiL2]2- 0 |
|
[SiL3]2- 0 |
|
[SiL4]2- 0 |
X+2Z = 1 | |
[SiLX]2- 0 |
|
[SiL2X]2- 0 |
|
[SiL3X]2- 0 |
|
X+2Z = 2 | [SiX2]2- 0 |
|
[SiLX2]2- 0 |
|
[SiL2X2]2- 0 |
|
[SiL3X2]2- 0 |
X+2Z = 3 | |
[SiX3]2- 0 |
|
[SiLX3]2- 0 |
|
[SiL2X3]2- 0 |
|
X+2Z = 4 | [SiX2Z]2- 0 |
|
[SiX4]2- 0 |
|
[SiLX4]2- 0 |
|
[SiL2X4]2- 0 |
X+2Z = 5 | |
[SiX3Z]2- 0 |
|
[SiX5]2- 0 |
|
[SiLX5]2- 0 |
|
X+2Z = 6 | [SiX2Z2]2- 7% |
|
[SiX4Z]2- 0 |
|
[SiX6]2- 93% |
|
[SiLX6]2- 0 |
X+2Z = 7 | |
[SiX3Z2]2- 0 |
|
[SiX5Z]2- 0 |
|
[SiX7]2- 0 |
|
X+2Z = 8 | [SiX2Z3]2- 0 |
|
[SiX4Z2]2- 0 |
|
[SiX6Z]2- 0 |
|
[SiX8]2- 0 |
X+2Z = 9 | |
[SiX3Z3]2- 0 |
|
[SiX5Z2]2- 0 |
|
[SiX7Z]2- 0 |
|
X+2Z = 10 | [SiX2Z4]2- 0 |
|
[SiX4Z3]2- 0 |
|
[SiX6Z2]2- 0 |
|
[SiX8Z]2- 0 |
X+2Z = 11 | |
[SiX3Z4]2- 0 |
|
[SiX5Z3]2- 0 |
|
[SiX7Z2]2- 0 |
|
X+2Z = 12 | [SiX2Z5]2- 0 |
|
[SiX4Z4]2- 0 |
|
[SiX6Z3]2- 0 |
|
[SiX8Z2]2- 0 |
MLXZq± grid for silicon (Si) for Q = -1: [SiXxLlZz]-
The number of compounds found is 23.
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 silicon with that [MLXZ]q± classification.
EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|
X+2Z = 0 | |
[SiL2]- 0 |
|
[SiL3]- 0 |
|
[SiL4]- 0 |
|
X+2Z = 1 | [SiLX]- 0 |
|
[SiL2X]- 0 |
|
[SiL3X]- 0 |
|
[SiL4X]- 0 |
X+2Z = 2 | |
[SiLX2]- 0 |
|
[SiL2X2]- 0 |
|
[SiL3X2]- 0 |
|
X+2Z = 3 | [SiX3]- 4% |
|
[SiLX3]- 0 |
|
[SiL2X3]- 0 |
|
[SiL3X3]- 0 |
X+2Z = 4 | |
[SiX4]- 0 |
|
[SiLX4]- 0 |
|
[SiL2X4]- 0 |
|
X+2Z = 5 | [SiX3Z]- 4% |
|
[SiX5]- 83% |
|
[SiLX5]- 9% |
|
[SiL2X5]- 0 |
X+2Z = 6 | |
[SiX4Z]- 0 |
|
[SiX6]- 0 |
|
[SiLX6]- 0 |
|
X+2Z = 7 | [SiX3Z2]- 0 |
|
[SiX5Z]- 0 |
|
[SiX7]- 0 |
|
[SiLX7]- 0 |
X+2Z = 8 | |
[SiX4Z2]- 0 |
|
[SiX6Z]- 0 |
|
[SiX8]- 0 |
|
X+2Z = 9 | [SiX3Z3]- 0 |
|
[SiX5Z2]- 0 |
|
[SiX7Z]- 0 |
|
[SiX9]- 0 |
X+2Z = 10 | |
[SiX4Z3]- 0 |
|
[SiX6Z2]- 0 |
|
[SiX8Z]- 0 |
|
X+2Z = 11 | [SiX3Z4]- 0 |
|
[SiX5Z3]- 0 |
|
[SiX7Z2]- 0 |
|
[SiX9Z]- 0 |
X+2Z = 12 | |
[SiX4Z4]- 0 |
|
[SiX6Z3]- 0 |
|
[SiX8Z2]- 0 |
|
MLXZq± grid for silicon (Si) for Q = 0: [SiXxLlZz]
The number of compounds found is 1432.
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 silicon with that [MLXZ]q± classification.
EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|
X+2Z = 0 | [SiL2] 0 |
|
[SiL3] 0 |
|
[SiL4] 0 |
|
[SiL5] 0 |
X+2Z = 1 | |
[SiL2X] 0 |
|
[SiL3X] 0 |
|
[SiL4X] 0 |
|
X+2Z = 2 | [SiLX2] 0.2% |
|
[SiL2X2] 0 |
|
[SiL3X2] 0 |
|
[SiL4X2] 0.1% |
X+2Z = 3 | |
[SiLX3] 0 |
|
[SiL2X3] 0 |
|
[SiL3X3] 0 |
|
X+2Z = 4 | [SiX4] 96% |
|
[SiLX4] 0.5% |
|
[SiL2X4] 4% |
|
[SiL3X4] 0 |
X+2Z = 5 | |
[SiX5] 0 |
|
[SiLX5] 0 |
|
[SiL2X5] 0 |
|
X+2Z = 6 | [SiX4Z] 0 |
|
[SiX6] 0 |
|
[SiLX6] 0 |
|
[SiL2X6] 0 |
X+2Z = 7 | |
[SiX5Z] 0 |
|
[SiX7] 0 |
|
[SiLX7] 0 |
|
X+2Z = 8 | [SiX4Z2] 0 |
|
[SiX6Z] 0 |
|
[SiX8] 0 |
|
[SiLX8] 0 |
X+2Z = 9 | |
[SiX5Z2] 0 |
|
[SiX7Z] 0 |
|
[SiX9] 0 |
|
X+2Z = 10 | [SiX4Z3] 0 |
|
[SiX6Z2] 0 |
|
[SiX8Z] 0 |
|
[SiX10] 0 |
X+2Z = 11 | |
[SiX5Z3] 0 |
|
[SiX7Z2] 0 |
|
[SiX9Z] 0 |
|
X+2Z = 12 | [SiX4Z4] 0 |
|
[SiX6Z3] 0 |
|
[SiX8Z2] 0 |
|
[SiX10Z] 0 |
MLXZq± grid for silicon (Si) for Q = 1: [SiXxLlZz]+
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 silicon with that [MLXZ]q± classification.
EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|
X+2Z = 0 | |
[SiL3]+ 0 |
|
[SiL4]+ 0 |
|
[SiL5]+ 0 |
|
X+2Z = 1 | [SiL2X]+ 13% |
|
[SiL3X]+ 0 |
|
[SiL4X]+ 0 |
|
[SiL5X]+ 0 |
X+2Z = 2 | |
[SiL2X2]+ 0 |
|
[SiL3X2]+ 0 |
|
[SiL4X2]+ 0 |
|
X+2Z = 3 | [SiLX3]+ 38% |
|
[SiL2X3]+ 25% |
|
[SiL3X3]+ 25% |
|
[SiL4X3]+ 0 |
X+2Z = 4 | |
[SiLX4]+ 0 |
|
[SiL2X4]+ 0 |
|
[SiL3X4]+ 0 |
|
X+2Z = 5 | [SiX5]+ 0 |
|
[SiLX5]+ 0 |
|
[SiL2X5]+ 0 |
|
[SiL3X5]+ 0 |
X+2Z = 6 | |
[SiX6]+ 0 |
|
[SiLX6]+ 0 |
|
[SiL2X6]+ 0 |
|
X+2Z = 7 | [SiX5Z]+ 0 |
|
[SiX7]+ 0 |
|
[SiLX7]+ 0 |
|
[SiL2X7]+ 0 |
X+2Z = 8 | |
[SiX6Z]+ 0 |
|
[SiX8]+ 0 |
|
[SiLX8]+ 0 |
|
X+2Z = 9 | [SiX5Z2]+ 0 |
|
[SiX7Z]+ 0 |
|
[SiX9]+ 0 |
|
[SiLX9]+ 0 |
X+2Z = 10 | |
[SiX6Z2]+ 0 |
|
[SiX8Z]+ 0 |
|
[SiX10]+ 0 |
|
X+2Z = 11 | [SiX5Z3]+ 0 |
|
[SiX7Z2]+ 0 |
|
[SiX9Z]+ 0 |
|
[SiX11]+ 0 |
X+2Z = 12 | |
[SiX6Z3]+ 0 |
|
[SiX8Z2]+ 0 |
|
[SiX10Z]+ 0 |
|
MLXZq± grid for silicon (Si) for Q = 2: [SiXxLlZz]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 silicon with that [MLXZ]q± classification.
EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|
X+2Z = 0 | [SiL3]2+ 0 |
|
[SiL4]2+ 11% |
|
[SiL5]2+ 0 |
|
[SiL6]2+ 0 |
X+2Z = 1 | |
[SiL3X]2+ 0 |
|
[SiL4X]2+ 0 |
|
[SiL5X]2+ 0 |
|
X+2Z = 2 | [SiL2X2]2+ 0 |
|
[SiL3X2]2+ 0 |
|
[SiL4X2]2+ 89% |
|
[SiL5X2]2+ 0 |
X+2Z = 3 | |
[SiL2X3]2+ 0 |
|
[SiL3X3]2+ 0 |
|
[SiL4X3]2+ 0 |
|
X+2Z = 4 | [SiLX4]2+ 0 |
|
[SiL2X4]2+ 0 |
|
[SiL3X4]2+ 0 |
|
[SiL4X4]2+ 0 |
X+2Z = 5 | |
[SiLX5]2+ 0 |
|
[SiL2X5]2+ 0 |
|
[SiL3X5]2+ 0 |
|
X+2Z = 6 | [SiX6]2+ 0 |
|
[SiLX6]2+ 0 |
|
[SiL2X6]2+ 0 |
|
[SiL3X6]2+ 0 |
X+2Z = 7 | |
[SiX7]2+ 0 |
|
[SiLX7]2+ 0 |
|
[SiL2X7]2+ 0 |
|
X+2Z = 8 | [SiX6Z]2+ 0 |
|
[SiX8]2+ 0 |
|
[SiLX8]2+ 0 |
|
[SiL2X8]2+ 0 |
X+2Z = 9 | |
[SiX7Z]2+ 0 |
|
[SiX9]2+ 0 |
|
[SiLX9]2+ 0 |
|
X+2Z = 10 | [SiX6Z2]2+ 0 |
|
[SiX8Z]2+ 0 |
|
[SiX10]2+ 0 |
|
[SiLX10]2+ 0 |
X+2Z = 11 | |
[SiX7Z2]2+ 0 |
|
[SiX9Z]2+ 0 |
|
[SiX11]2+ 0 |
|
X+2Z = 12 | [SiX6Z3]2+ 0 |
|
[SiX8Z2]2+ 0 |
|
[SiX10Z]2+ 0 |
|
[SiX12]2+ 0 |
MLXZq± grid for silicon (Si) for Q = 3: [SiXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for silicon (Si) for Q = 4: [SiXxLlZz]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 silicon with that [MLXZ]q± classification.
EN➝ | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|
X+2Z = 0 | [SiL4]4+ 33% |
|
[SiL5]4+ 0 |
|
[SiL6]4+ 67% |
|
[SiL7]4+ 0 |
X+2Z = 1 | |
[SiL4X]4+ 0 |
|
[SiL5X]4+ 0 |
|
[SiL6X]4+ 0 |
|
X+2Z = 2 | [SiL3X2]4+ 0 |
|
[SiL4X2]4+ 0 |
|
[SiL5X2]4+ 0 |
|
[SiL6X2]4+ 0 |
X+2Z = 3 | |
[SiL3X3]4+ 0 |
|
[SiL4X3]4+ 0 |
|
[SiL5X3]4+ 0 |
|
X+2Z = 4 | [SiL2X4]4+ 0 |
|
[SiL3X4]4+ 0 |
|
[SiL4X4]4+ 0 |
|
[SiL5X4]4+ 0 |
X+2Z = 5 | |
[SiL2X5]4+ 0 |
|
[SiL3X5]4+ 0 |
|
[SiL4X5]4+ 0 |
|
X+2Z = 6 | [SiLX6]4+ 0 |
|
[SiL2X6]4+ 0 |
|
[SiL3X6]4+ 0 |
|
[SiL4X6]4+ 0 |
X+2Z = 7 | |
[SiLX7]4+ 0 |
|
[SiL2X7]4+ 0 |
|
[SiL3X7]4+ 0 |
|
X+2Z = 8 | [SiX8]4+ 0 |
|
[SiLX8]4+ 0 |
|
[SiL2X8]4+ 0 |
|
[SiL3X8]4+ 0 |
X+2Z = 9 | |
[SiX9]4+ 0 |
|
[SiLX9]4+ 0 |
|
[SiL2X9]4+ 0 |
|
X+2Z = 10 | [SiX8Z]4+ 0 |
|
[SiX10]4+ 0 |
|
[SiLX10]4+ 0 |
|
[SiL2X10]4+ 0 |
X+2Z = 11 | |
[SiX9Z]4+ 0 |
|
[SiX11]4+ 0 |
|
[SiLX11]4+ 0 |
|
X+2Z = 12 | [SiX8Z2]4+ 0 |
|
[SiX10Z]4+ 0 |
|
[SiX12]4+ 0 |
|
[SiLX12]4+ 0 |
MLXZq± grid for germanium (Ge) for Q = -6: [GeXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for germanium (Ge) for Q = -5: [GeXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for germanium (Ge) for Q = -4: [GeXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for germanium (Ge) for Q = -3: [GeXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for germanium (Ge) for Q = -2: [GeXxLlZz]2-
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 germanium with that [MLXZ]q± classification.
EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | [Ge]2- 0 |
|
[GeL]2- 0 |
|
[GeL2]2- 0 |
|
[GeL3]2- 0 |
|
[GeL4]2- 0 |
X+2Z = 1 | |
[GeX]2- 0 |
|
[GeLX]2- 0 |
|
[GeL2X]2- 0 |
|
[GeL3X]2- 0 |
|
X+2Z = 2 | [GeZ]2- 0 |
|
[GeX2]2- 0 |
|
[GeLX2]2- 0 |
|
[GeL2X2]2- 0 |
|
[GeL3X2]2- 0 |
X+2Z = 3 | |
[GeXZ]2- 0 |
|
[GeX3]2- 0 |
|
[GeLX3]2- 0 |
|
[GeL2X3]2- 0 |
|
X+2Z = 4 | [GeZ2]2- 0 |
|
[GeX2Z]2- 0 |
|
[GeX4]2- 0 |
|
[GeLX4]2- 0 |
|
[GeL2X4]2- 14% |
X+2Z = 5 | |
[GeXZ2]2- 0 |
|
[GeX3Z]2- 0 |
|
[GeX5]2- 0 |
|
[GeLX5]2- 0 |
|
X+2Z = 6 | [GeZ3]2- 0 |
|
[GeX2Z2]2- 0 |
|
[GeX4Z]2- 0 |
|
[GeX6]2- 86% |
|
[GeLX6]2- 0 |
X+2Z = 7 | |
[GeXZ3]2- 0 |
|
[GeX3Z2]2- 0 |
|
[GeX5Z]2- 0 |
|
[GeX7]2- 0 |
|
X+2Z = 8 | [GeZ4]2- 0 |
|
[GeX2Z3]2- 0 |
|
[GeX4Z2]2- 0 |
|
[GeX6Z]2- 0 |
|
[GeX8]2- 0 |
X+2Z = 9 | |
[GeXZ4]2- 0 |
|
[GeX3Z3]2- 0 |
|
[GeX5Z2]2- 0 |
|
[GeX7Z]2- 0 |
|
X+2Z = 10 | [GeZ5]2- 0 |
|
[GeX2Z4]2- 0 |
|
[GeX4Z3]2- 0 |
|
[GeX6Z2]2- 0 |
|
[GeX8Z]2- 0 |
X+2Z = 11 | |
[GeXZ5]2- 0 |
|
[GeX3Z4]2- 0 |
|
[GeX5Z3]2- 0 |
|
[GeX7Z2]2- 0 |
|
X+2Z = 12 | [GeZ6]2- 0 |
|
[GeX2Z5]2- 0 |
|
[GeX4Z4]2- 0 |
|
[GeX6Z3]2- 0 |
|
[GeX8Z2]2- 0 |
MLXZq± grid for germanium (Ge) for Q = -1: [GeXxLlZz]-
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 germanium with that [MLXZ]q± classification.
EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | |
[GeL]- 0 |
|
[GeL2]- 0 |
|
[GeL3]- 0 |
|
[GeL4]- 0 |
|
X+2Z = 1 | [GeX]- 0 |
|
[GeLX]- 0 |
|
[GeL2X]- 0 |
|
[GeL3X]- 0 |
|
[GeL4X]- 0 |
X+2Z = 2 | |
[GeX2]- 0 |
|
[GeLX2]- 0 |
|
[GeL2X2]- 0 |
|
[GeL3X2]- 0 |
|
X+2Z = 3 | [GeXZ]- 0 |
|
[GeX3]- 31% |
|
[GeLX3]- 0 |
|
[GeL2X3]- 0 |
|
[GeL3X3]- 4% |
X+2Z = 4 | |
[GeX2Z]- 0 |
|
[GeX4]- 0 |
|
[GeLX4]- 0 |
|
[GeL2X4]- 0 |
|
X+2Z = 5 | [GeXZ2]- 0 |
|
[GeX3Z]- 35% |
|
[GeX5]- 27% |
|
[GeLX5]- 4% |
|
[GeL2X5]- 0 |
X+2Z = 6 | |
[GeX2Z2]- 0 |
|
[GeX4Z]- 0 |
|
[GeX6]- 0 |
|
[GeLX6]- 0 |
|
X+2Z = 7 | [GeXZ3]- 0 |
|
[GeX3Z2]- 0 |
|
[GeX5Z]- 0 |
|
[GeX7]- 0 |
|
[GeLX7]- 0 |
X+2Z = 8 | |
[GeX2Z3]- 0 |
|
[GeX4Z2]- 0 |
|
[GeX6Z]- 0 |
|
[GeX8]- 0 |
|
X+2Z = 9 | [GeXZ4]- 0 |
|
[GeX3Z3]- 0 |
|
[GeX5Z2]- 0 |
|
[GeX7Z]- 0 |
|
[GeX9]- 0 |
X+2Z = 10 | |
[GeX2Z4]- 0 |
|
[GeX4Z3]- 0 |
|
[GeX6Z2]- 0 |
|
[GeX8Z]- 0 |
|
X+2Z = 11 | [GeXZ5]- 0 |
|
[GeX3Z4]- 0 |
|
[GeX5Z3]- 0 |
|
[GeX7Z2]- 0 |
|
[GeX9Z]- 0 |
X+2Z = 12 | |
[GeX2Z5]- 0 |
|
[GeX4Z4]- 0 |
|
[GeX6Z3]- 0 |
|
[GeX8Z2]- 0 |
|
MLXZq± grid for germanium (Ge) for Q = 0: [GeXxLlZz]
The number of compounds found is 349.
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 germanium with that [MLXZ]q± classification.
EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | [GeL] 0 |
|
[GeL2] 0 |
|
[GeL3] 0 |
|
[GeL4] 0 |
|
[GeL5] 0 |
X+2Z = 1 | |
[GeLX] 0 |
|
[GeL2X] 0 |
|
[GeL3X] 0 |
|
[GeL4X] 0 |
|
X+2Z = 2 | [GeX2] 4% |
|
[GeLX2] 4% |
|
[GeL2X2] 4% |
|
[GeL3X2] 0 |
|
[GeL4X2] 1% |
X+2Z = 3 | |
[GeX3] 0 |
|
[GeLX3] 0 |
|
[GeL2X3] 0 |
|
[GeL3X3] 0 |
|
X+2Z = 4 | [GeX2Z] 1% |
|
[GeX4] 72% |
|
[GeLX4] 3% |
|
[GeL2X4] 11% |
|
[GeL3X4] 0 |
X+2Z = 5 | |
[GeX3Z] 0 |
|
[GeX5] 0 |
|
[GeLX5] 0 |
|
[GeL2X5] 0 |
|
X+2Z = 6 | [GeX2Z2] 0 |
|
[GeX4Z] 0 |
|
[GeX6] 0 |
|
[GeLX6] 0 |
|
[GeL2X6] 0 |
X+2Z = 7 | |
[GeX3Z2] 0 |
|
[GeX5Z] 0 |
|
[GeX7] 0 |
|
[GeLX7] 0 |
|
X+2Z = 8 | [GeX2Z3] 0 |
|
[GeX4Z2] 0 |
|
[GeX6Z] 0 |
|
[GeX8] 0 |
|
[GeLX8] 0 |
X+2Z = 9 | |
[GeX3Z3] 0 |
|
[GeX5Z2] 0 |
|
[GeX7Z] 0 |
|
[GeX9] 0 |
|
X+2Z = 10 | [GeX2Z4] 0 |
|
[GeX4Z3] 0 |
|
[GeX6Z2] 0 |
|
[GeX8Z] 0 |
|
[GeX10] 0 |
X+2Z = 11 | |
[GeX3Z4] 0 |
|
[GeX5Z3] 0 |
|
[GeX7Z2] 0 |
|
[GeX9Z] 0 |
|
X+2Z = 12 | [GeX2Z5] 0 |
|
[GeX4Z4] 0 |
|
[GeX6Z3] 0 |
|
[GeX8Z2] 0 |
|
[GeX10Z] 0 |
MLXZq± grid for germanium (Ge) for Q = 1: [GeXxLlZz]+
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 germanium with that [MLXZ]q± classification.
EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | |
[GeL2]+ 0 |
|
[GeL3]+ 0 |
|
[GeL4]+ 0 |
|
[GeL5]+ 0 |
|
X+2Z = 1 | [GeLX]+ 0 |
|
[GeL2X]+ 33% |
|
[GeL3X]+ 11% |
|
[GeL4X]+ 11% |
|
[GeL5X]+ 0 |
X+2Z = 2 | |
[GeLX2]+ 0 |
|
[GeL2X2]+ 0 |
|
[GeL3X2]+ 0 |
|
[GeL4X2]+ 0 |
|
X+2Z = 3 | [GeX3]+ 0 |
|
[GeLX3]+ 0 |
|
[GeL2X3]+ 0 |
|
[GeL3X3]+ 44% |
|
[GeL4X3]+ 0 |
X+2Z = 4 | |
[GeX4]+ 0 |
|
[GeLX4]+ 0 |
|
[GeL2X4]+ 0 |
|
[GeL3X4]+ 0 |
|
X+2Z = 5 | [GeX3Z]+ 0 |
|
[GeX5]+ 0 |
|
[GeLX5]+ 0 |
|
[GeL2X5]+ 0 |
|
[GeL3X5]+ 0 |
X+2Z = 6 | |
[GeX4Z]+ 0 |
|
[GeX6]+ 0 |
|
[GeLX6]+ 0 |
|
[GeL2X6]+ 0 |
|
X+2Z = 7 | [GeX3Z2]+ 0 |
|
[GeX5Z]+ 0 |
|
[GeX7]+ 0 |
|
[GeLX7]+ 0 |
|
[GeL2X7]+ 0 |
X+2Z = 8 | |
[GeX4Z2]+ 0 |
|
[GeX6Z]+ 0 |
|
[GeX8]+ 0 |
|
[GeLX8]+ 0 |
|
X+2Z = 9 | [GeX3Z3]+ 0 |
|
[GeX5Z2]+ 0 |
|
[GeX7Z]+ 0 |
|
[GeX9]+ 0 |
|
[GeLX9]+ 0 |
X+2Z = 10 | |
[GeX4Z3]+ 0 |
|
[GeX6Z2]+ 0 |
|
[GeX8Z]+ 0 |
|
[GeX10]+ 0 |
|
X+2Z = 11 | [GeX3Z4]+ 0 |
|
[GeX5Z3]+ 0 |
|
[GeX7Z2]+ 0 |
|
[GeX9Z]+ 0 |
|
[GeX11]+ 0 |
X+2Z = 12 | |
[GeX4Z4]+ 0 |
|
[GeX6Z3]+ 0 |
|
[GeX8Z2]+ 0 |
|
[GeX10Z]+ 0 |
|
MLXZq± grid for germanium (Ge) for Q = 2: [GeXxLlZz]2+
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 germanium with that [MLXZ]q± classification.
EN➝ | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | [GeL2]2+ 0 |
|
[GeL3]2+ 14% |
|
[GeL4]2+ 14% |
|
[GeL5]2+ 0 |
|
[GeL6]2+ 14% |
X+2Z = 1 | |
[GeL2X]2+ 0 |
|
[GeL3X]2+ 0 |
|
[GeL4X]2+ 0 |
|
[GeL5X]2+ 0 |
|
X+2Z = 2 | [GeLX2]2+ 0 |
|
[GeL2X2]2+ 29% |
|
[GeL3X2]2+ 0 |
|
[GeL4X2]2+ 29% |
|
[GeL5X2]2+ 0 |
X+2Z = 3 | |
[GeLX3]2+ 0 |
|
[GeL2X3]2+ 0 |
|
[GeL3X3]2+ 0 |
|
[GeL4X3]2+ 0 |
|
X+2Z = 4 | [GeX4]2+ 0 |
|
[GeLX4]2+ 0 |
|
[GeL2X4]2+ 0 |
|
[GeL3X4]2+ 0 |
|
[GeL4X4]2+ 0 |
X+2Z = 5 | |
[GeX5]2+ 0 |
|
[GeLX5]2+ 0 |
|
[GeL2X5]2+ 0 |
|
[GeL3X5]2+ 0 |
|
X+2Z = 6 | [GeX4Z]2+ 0 |
|
[GeX6]2+ 0 |
|
[GeLX6]2+ 0 |
|
[GeL2X6]2+ 0 |
|
[GeL3X6]2+ 0 |
X+2Z = 7 | |
[GeX5Z]2+ 0 |
|
[GeX7]2+ 0 |
|
[GeLX7]2+ 0 |
|
[GeL2X7]2+ 0 |
|
X+2Z = 8 | [GeX4Z2]2+ 0 |
|
[GeX6Z]2+ 0 |
|
[GeX8]2+ 0 |
|
[GeLX8]2+ 0 |
|
[GeL2X8]2+ 0 |
X+2Z = 9 | |
[GeX5Z2]2+ 0 |
|
[GeX7Z]2+ 0 |
|
[GeX9]2+ 0 |
|
[GeLX9]2+ 0 |
|
X+2Z = 10 | [GeX4Z3]2+ 0 |
|
[GeX6Z2]2+ 0 |
|
[GeX8Z]2+ 0 |
|
[GeX10]2+ 0 |
|
[GeLX10]2+ 0 |
X+2Z = 11 | |
[GeX5Z3]2+ 0 |
|
[GeX7Z2]2+ 0 |
|
[GeX9Z]2+ 0 |
|
[GeX11]2+ 0 |
|
X+2Z = 12 | [GeX4Z4]2+ 0 |
|
[GeX6Z3]2+ 0 |
|
[GeX8Z2]2+ 0 |
|
[GeX10Z]2+ 0 |
|
[GeX12]2+ 0 |
MLXZq± grid for germanium (Ge) for Q = 3: [GeXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for germanium (Ge) for Q = 4: [GeXxLlZz]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 lead (Pb) for Q = -6: [PbXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for lead (Pb) for Q = -5: [PbXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for lead (Pb) for Q = -4: [PbXxLlZz]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 lead 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 | [PbZ2]4- 0 |
|
[PbZ]4- 0 |
|
[Pb]4- 0 |
|
[PbL]4- 0 |
|
[PbL2]4- 0 |
|
[PbL3]4- 0 |
|
[PbL4]4- 0 |
|
[PbL5]4- 0 |
|
[PbL6]4- 0 |
|
[PbL7]4- 0 |
X+2Z = 1 | |
[PbZ2]4- 0 |
|
[PbZ]4- 0 |
|
[PbX]4- 0 |
|
[PbLX]4- 0 |
|
[PbL2X]4- 0 |
|
[PbL3X]4- 0 |
|
[PbL4X]4- 0 |
|
[PbL5X]4- 0 |
|
[PbL6X]4- 0 |
|
X+2Z = 2 | [PbZ3]4- 0 |
|
[PbZ2]4- 0 |
|
[PbZ]4- 0 |
|
[PbX2]4- 0 |
|
[PbLX2]4- 0 |
|
[PbL2X2]4- 0 |
|
[PbL3X2]4- 0 |
|
[PbL4X2]4- 0 |
|
[PbL5X2]4- 0 |
|
[PbL6X2]4- 0 |
X+2Z = 3 | |
[PbZ3]4- 0 |
|
[PbZ2]4- 0 |
|
[PbXZ]4- 0 |
|
[PbX3]4- 0 |
|
[PbLX3]4- 0 |
|
[PbL2X3]4- 0 |
|
[PbL3X3]4- 0 |
|
[PbL4X3]4- 0 |
|
[PbL5X3]4- 0 |
|
X+2Z = 4 | [PbZ4]4- 0 |
|
[PbZ3]4- 0 |
|
[PbZ2]4- 0 |
|
[PbX2Z]4- 0 |
|
[PbX4]4- 0 |
|
[PbLX4]4- 0 |
|
[PbL2X4]4- 0 |
|
[PbL3X4]4- 0 |
|
[PbL4X4]4- 0 |
|
[PbL5X4]4- 0 |
X+2Z = 5 | |
[PbZ4]4- 0 |
|
[PbZ3]4- 0 |
|
[PbXZ2]4- 0 |
|
[PbX3Z]4- 0 |
|
[PbX5]4- 0 |
|
[PbLX5]4- 0 |
|
[PbL2X5]4- 0 |
|
[PbL3X5]4- 0 |
|
[PbL4X5]4- 0 |
|
X+2Z = 6 | [PbZ5]4- 0 |
|
[PbZ4]4- 0 |
|
[PbZ3]4- 0 |
|
[PbX2Z2]4- 0 |
|
[PbX4Z]4- 0 |
|
[PbX6]4- 75% |
|
[PbLX6]4- 0 |
|
[PbL2X6]4- 0 |
|
[PbL3X6]4- 0 |
|
[PbL4X6]4- 0 |
X+2Z = 7 | |
[PbZ5]4- 0 |
|
[PbZ4]4- 0 |
|
[PbXZ3]4- 0 |
|
[PbX3Z2]4- 0 |
|
[PbX5Z]4- 0 |
|
[PbX7]4- 0 |
|
[PbLX7]4- 0 |
|
[PbL2X7]4- 0 |
|
[PbL3X7]4- 0 |
|
X+2Z = 8 | [PbZ6]4- 0 |
|
[PbZ5]4- 0 |
|
[PbZ4]4- 25% |
|
[PbX2Z3]4- 0 |
|
[PbX4Z2]4- 0 |
|
[PbX6Z]4- 0 |
|
[PbX8]4- 0 |
|
[PbLX8]4- 0 |
|
[PbL2X8]4- 0 |
|
[PbL3X8]4- 0 |
X+2Z = 9 | |
[PbZ6]4- 0 |
|
[PbZ5]4- 0 |
|
[PbXZ4]4- 0 |
|
[PbX3Z3]4- 0 |
|
[PbX5Z2]4- 0 |
|
[PbX7Z]4- 0 |
|
[PbX9]4- 0 |
|
[PbLX9]4- 0 |
|
[PbL2X9]4- 0 |
|
X+2Z = 10 | [PbZ7]4- 0 |
|
[PbZ6]4- 0 |
|
[PbZ5]4- 0 |
|
[PbX2Z4]4- 0 |
|
[PbX4Z3]4- 0 |
|
[PbX6Z2]4- 0 |
|
[PbX8Z]4- 0 |
|
[PbX10]4- 0 |
|
[PbLX10]4- 0 |
|
[PbL2X10]4- 0 |
X+2Z = 11 | |
[PbZ7]4- 0 |
|
[PbZ6]4- 0 |
|
[PbXZ5]4- 0 |
|
[PbX3Z4]4- 0 |
|
[PbX5Z3]4- 0 |
|
[PbX7Z2]4- 0 |
|
[PbX9Z]4- 0 |
|
[PbX11]4- 0 |
|
[PbLX11]4- 0 |
|
X+2Z = 12 | [PbZ8]4- 0 |
|
[PbZ7]4- 0 |
|
[PbZ6]4- 0 |
|
[PbX2Z5]4- 0 |
|
[PbX4Z4]4- 0 |
|
[PbX6Z3]4- 0 |
|
[PbX8Z2]4- 0 |
|
[PbX10Z]4- 0 |
|
[PbX12]4- 0 |
|
[PbLX12]4- 0 |
MLXZq± grid for lead (Pb) for Q = -3: [PbXxLlZz]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 lead 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 | |
[PbZ]3- 0 |
|
[Pb]3- 0 |
|
[PbL]3- 0 |
|
[PbL2]3- 0 |
|
[PbL3]3- 0 |
|
[PbL4]3- 0 |
|
[PbL5]3- 0 |
|
[PbL6]3- 0 |
|
[PbL7]3- 0 |
|
X+2Z = 1 | [PbZ2]3- 0 |
|
[PbZ]3- 0 |
|
[PbX]3- 0 |
|
[PbLX]3- 0 |
|
[PbL2X]3- 0 |
|
[PbL3X]3- 0 |
|
[PbL4X]3- 0 |
|
[PbL5X]3- 0 |
|
[PbL6X]3- 0 |
|
[PbL7X]3- 0 |
X+2Z = 2 | |
[PbZ2]3- 0 |
|
[PbZ]3- 0 |
|
[PbX2]3- 0 |
|
[PbLX2]3- 0 |
|
[PbL2X2]3- 0 |
|
[PbL3X2]3- 0 |
|
[PbL4X2]3- 0 |
|
[PbL5X2]3- 0 |
|
[PbL6X2]3- 0 |
|
X+2Z = 3 | [PbZ3]3- 0 |
|
[PbZ2]3- 0 |
|
[PbXZ]3- 0 |
|
[PbX3]3- 0 |
|
[PbLX3]3- 0 |
|
[PbL2X3]3- 0 |
|
[PbL3X3]3- 0 |
|
[PbL4X3]3- 0 |
|
[PbL5X3]3- 0 |
|
[PbL6X3]3- 0 |
X+2Z = 4 | |
[PbZ3]3- 0 |
|
[PbZ2]3- 0 |
|
[PbX2Z]3- 0 |
|
[PbX4]3- 0 |
|
[PbLX4]3- 0 |
|
[PbL2X4]3- 0 |
|
[PbL3X4]3- 0 |
|
[PbL4X4]3- 0 |
|
[PbL5X4]3- 0 |
|
X+2Z = 5 | [PbZ4]3- 0 |
|
[PbZ3]3- 0 |
|
[PbXZ2]3- 0 |
|
[PbX3Z]3- 0 |
|
[PbX5]3- 0 |
|
[PbLX5]3- 67% |
|
[PbL2X5]3- 0 |
|
[PbL3X5]3- 0 |
|
[PbL4X5]3- 0 |
|
[PbL5X5]3- 0 |
X+2Z = 6 | |
[PbZ4]3- 0 |
|
[PbZ3]3- 0 |
|
[PbX2Z2]3- 0 |
|
[PbX4Z]3- 0 |
|
[PbX6]3- 0 |
|
[PbLX6]3- 0 |
|
[PbL2X6]3- 0 |
|
[PbL3X6]3- 0 |
|
[PbL4X6]3- 0 |
|
X+2Z = 7 | [PbZ5]3- 0 |
|
[PbZ4]3- 0 |
|
[PbXZ3]3- 33% |
|
[PbX3Z2]3- 0 |
|
[PbX5Z]3- 0 |
|
[PbX7]3- 0 |
|
[PbLX7]3- 0 |
|
[PbL2X7]3- 0 |
|
[PbL3X7]3- 0 |
|
[PbL4X7]3- 0 |
X+2Z = 8 | |
[PbZ5]3- 0 |
|
[PbZ4]3- 0 |
|
[PbX2Z3]3- 0 |
|
[PbX4Z2]3- 0 |
|
[PbX6Z]3- 0 |
|
[PbX8]3- 0 |
|
[PbLX8]3- 0 |
|
[PbL2X8]3- 0 |
|
[PbL3X8]3- 0 |
|
X+2Z = 9 | [PbZ6]3- 0 |
|
[PbZ5]3- 0 |
|
[PbXZ4]3- 0 |
|
[PbX3Z3]3- 0 |
|
[PbX5Z2]3- 0 |
|
[PbX7Z]3- 0 |
|
[PbX9]3- 0 |
|
[PbLX9]3- 0 |
|
[PbL2X9]3- 0 |
|
[PbL3X9]3- 0 |
X+2Z = 10 | |
[PbZ6]3- 0 |
|
[PbZ5]3- 0 |
|
[PbX2Z4]3- 0 |
|
[PbX4Z3]3- 0 |
|
[PbX6Z2]3- 0 |
|
[PbX8Z]3- 0 |
|
[PbX10]3- 0 |
|
[PbLX10]3- 0 |
|
[PbL2X10]3- 0 |
|
X+2Z = 11 | [PbZ7]3- 0 |
|
[PbZ6]3- 0 |
|
[PbXZ5]3- 0 |
|
[PbX3Z4]3- 0 |
|
[PbX5Z3]3- 0 |
|
[PbX7Z2]3- 0 |
|
[PbX9Z]3- 0 |
|
[PbX11]3- 0 |
|
[PbLX11]3- 0 |
|
[PbL2X11]3- 0 |
X+2Z = 12 | |
[PbZ7]3- 0 |
|
[PbZ6]3- 0 |
|
[PbX2Z5]3- 0 |
|
[PbX4Z4]3- 0 |
|
[PbX6Z3]3- 0 |
|
[PbX8Z2]3- 0 |
|
[PbX10Z]3- 0 |
|
[PbX12]3- 0 |
|
[PbLX12]3- 0 |
|
MLXZq± grid for lead (Pb) for Q = -2: [PbXxLlZz]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 lead 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 | [PbZ]2- 0 |
|
[Pb]2- 0 |
|
[PbL]2- 0 |
|
[PbL2]2- 0 |
|
[PbL3]2- 0 |
|
[PbL4]2- 0 |
|
[PbL5]2- 0 |
|
[PbL6]2- 0 |
|
[PbL7]2- 0 |
|
[PbL8]2- 0 |
X+2Z = 1 | |
[PbZ]2- 0 |
|
[PbX]2- 0 |
|
[PbLX]2- 0 |
|
[PbL2X]2- 0 |
|
[PbL3X]2- 0 |
|
[PbL4X]2- 0 |
|
[PbL5X]2- 0 |
|
[PbL6X]2- 0 |
|
[PbL7X]2- 0 |
|
X+2Z = 2 | [PbZ2]2- 0 |
|
[PbZ]2- 0 |
|
[PbX2]2- 0 |
|
[PbLX2]2- 0 |
|
[PbL2X2]2- 0 |
|
[PbL3X2]2- 0 |
|
[PbL4X2]2- 0 |
|
[PbL5X2]2- 0 |
|
[PbL6X2]2- 0 |
|
[PbL7X2]2- 0 |
X+2Z = 3 | |
[PbZ2]2- 0 |
|
[PbXZ]2- 0 |
|
[PbX3]2- 0 |
|
[PbLX3]2- 0 |
|
[PbL2X3]2- 0 |
|
[PbL3X3]2- 0 |
|
[PbL4X3]2- 0 |
|
[PbL5X3]2- 0 |
|
[PbL6X3]2- 0 |
|
X+2Z = 4 | [PbZ3]2- 0 |
|
[PbZ2]2- 0 |
|
[PbX2Z]2- 0 |
|
[PbX4]2- 17% |
|
[PbLX4]2- 0 |
|
[PbL2X4]2- 17% |
|
[PbL3X4]2- 0 |
|
[PbL4X4]2- 0 |
|
[PbL5X4]2- 0 |
|
[PbL6X4]2- 0 |
X+2Z = 5 | |
[PbZ3]2- 0 |
|
[PbXZ2]2- 0 |
|
[PbX3Z]2- 0 |
|
[PbX5]2- 0 |
|
[PbLX5]2- 0 |
|
[PbL2X5]2- 0 |
|
[PbL3X5]2- 0 |
|
[PbL4X5]2- 0 |
|
[PbL5X5]2- 0 |
|
X+2Z = 6 | [PbZ4]2- 0 |
|
[PbZ3]2- 6% |
|
[PbX2Z2]2- 28% |
|
[PbX4Z]2- 0 |
|
[PbX6]2- 33% |
|
[PbLX6]2- 0 |
|
[PbL2X6]2- 0 |
|
[PbL3X6]2- 0 |
|
[PbL4X6]2- 0 |
|
[PbL5X6]2- 0 |
X+2Z = 7 | |
[PbZ4]2- 0 |
|
[PbXZ3]2- 0 |
|
[PbX3Z2]2- 0 |
|
[PbX5Z]2- 0 |
|
[PbX7]2- 0 |
|
[PbLX7]2- 0 |
|
[PbL2X7]2- 0 |
|
[PbL3X7]2- 0 |
|
[PbL4X7]2- 0 |
|
X+2Z = 8 | [PbZ5]2- 0 |
|
[PbZ4]2- 0 |
|
[PbX2Z3]2- 0 |
|
[PbX4Z2]2- 0 |
|
[PbX6Z]2- 0 |
|
[PbX8]2- 0 |
|
[PbLX8]2- 0 |
|
[PbL2X8]2- 0 |
|
[PbL3X8]2- 0 |
|
[PbL4X8]2- 0 |
X+2Z = 9 | |
[PbZ5]2- 0 |
|
[PbXZ4]2- 0 |
|
[PbX3Z3]2- 0 |
|
[PbX5Z2]2- 0 |
|
[PbX7Z]2- 0 |
|
[PbX9]2- 0 |
|
[PbLX9]2- 0 |
|
[PbL2X9]2- 0 |
|
[PbL3X9]2- 0 |
|
X+2Z = 10 | [PbZ6]2- 0 |
|
[PbZ5]2- 0 |
|
[PbX2Z4]2- 0 |
|
[PbX4Z3]2- 0 |
|
[PbX6Z2]2- 0 |
|
[PbX8Z]2- 0 |
|
[PbX10]2- 0 |
|
[PbLX10]2- 0 |
|
[PbL2X10]2- 0 |
|
[PbL3X10]2- 0 |
X+2Z = 11 | |
[PbZ6]2- 0 |
|
[PbXZ5]2- 0 |
|
[PbX3Z4]2- 0 |
|
[PbX5Z3]2- 0 |
|
[PbX7Z2]2- 0 |
|
[PbX9Z]2- 0 |
|
[PbX11]2- 0 |
|
[PbLX11]2- 0 |
|
[PbL2X11]2- 0 |
|
X+2Z = 12 | [PbZ7]2- 0 |
|
[PbZ6]2- 0 |
|
[PbX2Z5]2- 0 |
|
[PbX4Z4]2- 0 |
|
[PbX6Z3]2- 0 |
|
[PbX8Z2]2- 0 |
|
[PbX10Z]2- 0 |
|
[PbX12]2- 0 |
|
[PbLX12]2- 0 |
|
[PbL2X12]2- 0 |
MLXZq± grid for lead (Pb) for Q = -1: [PbXxLlZz]-
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 lead 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 | |
[Pb]- 0 |
|
[PbL]- 0 |
|
[PbL2]- 0 |
|
[PbL3]- 0 |
|
[PbL4]- 0 |
|
[PbL5]- 0 |
|
[PbL6]- 0 |
|
[PbL7]- 0 |
|
[PbL8]- 0 |
|
X+2Z = 1 | [PbZ]- 0 |
|
[PbX]- 0 |
|
[PbLX]- 0 |
|
[PbL2X]- 0 |
|
[PbL3X]- 0 |
|
[PbL4X]- 0 |
|
[PbL5X]- 0 |
|
[PbL6X]- 0 |
|
[PbL7X]- 0 |
|
[PbL8X]- 0 |
X+2Z = 2 | |
[PbZ]- 0 |
|
[PbX2]- 0 |
|
[PbLX2]- 0 |
|
[PbL2X2]- 0 |
|
[PbL3X2]- 0 |
|
[PbL4X2]- 0 |
|
[PbL5X2]- 0 |
|
[PbL6X2]- 0 |
|
[PbL7X2]- 0 |
|
X+2Z = 3 | [PbZ2]- 0 |
|
[PbXZ]- 0 |
|
[PbX3]- 46% |
|
[PbLX3]- 4% |
|
[PbL2X3]- 4% |
|
[PbL3X3]- 19% |
|
[PbL4X3]- 0 |
|
[PbL5X3]- 0 |
|
[PbL6X3]- 0 |
|
[PbL7X3]- 4% |
X+2Z = 4 | |
[PbZ2]- 0 |
|
[PbX2Z]- 0 |
|
[PbX4]- 0 |
|
[PbLX4]- 0 |
|
[PbL2X4]- 0 |
|
[PbL3X4]- 0 |
|
[PbL4X4]- 0 |
|
[PbL5X4]- 0 |
|
[PbL6X4]- 0 |
|
X+2Z = 5 | [PbZ3]- 0 |
|
[PbXZ2]- 4% |
|
[PbX3Z]- 8% |
|
[PbX5]- 4% |
|
[PbLX5]- 4% |
|
[PbL2X5]- 0 |
|
[PbL3X5]- 4% |
|
[PbL4X5]- 0 |
|
[PbL5X5]- 0 |
|
[PbL6X5]- 0 |
X+2Z = 6 | |
[PbZ3]- 0 |
|
[PbX2Z2]- 0 |
|
[PbX4Z]- 0 |
|
[PbX6]- 0 |
|
[PbLX6]- 0 |
|
[PbL2X6]- 0 |
|
[PbL3X6]- 0 |
|
[PbL4X6]- 0 |
|
[PbL5X6]- 0 |
|
X+2Z = 7 | [PbZ4]- 0 |
|
[PbXZ3]- 0 |
|
[PbX3Z2]- 0 |
|
[PbX5Z]- 0 |
|
[PbX7]- 0 |
|
[PbLX7]- 0 |
|
[PbL2X7]- 0 |
|
[PbL3X7]- 0 |
|
[PbL4X7]- 0 |
|
[PbL5X7]- 0 |
X+2Z = 8 | |
[PbZ4]- 0 |
|
[PbX2Z3]- 0 |
|
[PbX4Z2]- 0 |
|
[PbX6Z]- 0 |
|
[PbX8]- 0 |
|
[PbLX8]- 0 |
|
[PbL2X8]- 0 |
|
[PbL3X8]- 0 |
|
[PbL4X8]- 0 |
|
X+2Z = 9 | [PbZ5]- 0 |
|
[PbXZ4]- 0 |
|
[PbX3Z3]- 0 |
|
[PbX5Z2]- 0 |
|
[PbX7Z]- 0 |
|
[PbX9]- 0 |
|
[PbLX9]- 0 |
|
[PbL2X9]- 0 |
|
[PbL3X9]- 0 |
|
[PbL4X9]- 0 |
X+2Z = 10 | |
[PbZ5]- 0 |
|
[PbX2Z4]- 0 |
|
[PbX4Z3]- 0 |
|
[PbX6Z2]- 0 |
|
[PbX8Z]- 0 |
|
[PbX10]- 0 |
|
[PbLX10]- 0 |
|
[PbL2X10]- 0 |
|
[PbL3X10]- 0 |
|
X+2Z = 11 | [PbZ6]- 0 |
|
[PbXZ5]- 0 |
|
[PbX3Z4]- 0 |
|
[PbX5Z3]- 0 |
|
[PbX7Z2]- 0 |
|
[PbX9Z]- 0 |
|
[PbX11]- 0 |
|
[PbLX11]- 0 |
|
[PbL2X11]- 0 |
|
[PbL3X11]- 0 |
X+2Z = 12 | |
[PbZ6]- 0 |
|
[PbX2Z5]- 0 |
|
[PbX4Z4]- 0 |
|
[PbX6Z3]- 0 |
|
[PbX8Z2]- 0 |
|
[PbX10Z]- 0 |
|
[PbX12]- 0 |
|
[PbLX12]- 0 |
|
[PbL2X12]- 0 |
|
MLXZq± grid for lead (Pb) for Q = 0: [PbXxLlZz]
The number of compounds found is 199.
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 lead 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 | [Pb] 0 |
|
[PbL] 0 |
|
[PbL2] 0 |
|
[PbL3] 0 |
|
[PbL4] 0 |
|
[PbL5] 0 |
|
[PbL6] 0 |
|
[PbL7] 0 |
|
[PbL8] 0 |
|
[PbL9] 0 |
X+2Z = 1 | |
[PbX] 0 |
|
[PbLX] 0 |
|
[PbL2X] 0 |
|
[PbL3X] 0 |
|
[PbL4X] 0 |
|
[PbL5X] 0 |
|
[PbL6X] 0 |
|
[PbL7X] 0 |
|
[PbL8X] 0 |
|
X+2Z = 2 | [PbZ] 0 |
|
[PbX2] 6% |
|
[PbLX2] 5% |
|
[PbL2X2] 14% |
|
[PbL3X2] 3% |
|
[PbL4X2] 21% |
|
[PbL5X2] 4% |
|
[PbL6X2] 6% |
|
[PbL7X2] 1% |
|
[PbL8X2] 1% |
X+2Z = 3 | |
[PbXZ] 0 |
|
[PbX3] 0 |
|
[PbLX3] 0 |
|
[PbL2X3] 0 |
|
[PbL3X3] 0 |
|
[PbL4X3] 0 |
|
[PbL5X3] 0 |
|
[PbL6X3] 0 |
|
[PbL7X3] 0 |
|
X+2Z = 4 | [PbZ2] 1% |
|
[PbX2Z] 0 |
|
[PbX4] 25% |
|
[PbLX4] 6% |
|
[PbL2X4] 6% |
|
[PbL3X4] 3% |
|
[PbL4X4] 1% |
|
[PbL5X4] 0 |
|
[PbL6X4] 0 |
|
[PbL7X4] 0 |
X+2Z = 5 | |
[PbXZ2] 0 |
|
[PbX3Z] 0 |
|
[PbX5] 0 |
|
[PbLX5] 0 |
|
[PbL2X5] 0 |
|
[PbL3X5] 0 |
|
[PbL4X5] 0 |
|
[PbL5X5] 0 |
|
[PbL6X5] 0 |
|
X+2Z = 6 | [PbZ3] 0 |
|
[PbX2Z2] 0 |
|
[PbX4Z] 0 |
|
[PbX6] 0 |
|
[PbLX6] 0 |
|
[PbL2X6] 0 |
|
[PbL3X6] 0 |
|
[PbL4X6] 0 |
|
[PbL5X6] 0 |
|
[PbL6X6] 0 |
X+2Z = 7 | |
[PbXZ3] 0 |
|
[PbX3Z2] 0 |
|
[PbX5Z] 0 |
|
[PbX7] 0 |
|
[PbLX7] 0 |
|
[PbL2X7] 0 |
|
[PbL3X7] 0 |
|
[PbL4X7] 0 |
|
[PbL5X7] 0 |
|
X+2Z = 8 | [PbZ4] 0 |
|
[PbX2Z3] 0 |
|
[PbX4Z2] 0 |
|
[PbX6Z] 0 |
|
[PbX8] 0 |
|
[PbLX8] 0 |
|
[PbL2X8] 0 |
|
[PbL3X8] 0 |
|
[PbL4X8] 0 |
|
[PbL5X8] 0 |
X+2Z = 9 | |
[PbXZ4] 0 |
|
[PbX3Z3] 0 |
|
[PbX5Z2] 0 |
|
[PbX7Z] 0 |
|
[PbX9] 0 |
|
[PbLX9] 0 |
|
[PbL2X9] 0 |
|
[PbL3X9] 0 |
|
[PbL4X9] 0 |
|
X+2Z = 10 | [PbZ5] 0 |
|
[PbX2Z4] 0 |
|
[PbX4Z3] 0 |
|
[PbX6Z2] 0 |
|
[PbX8Z] 0 |
|
[PbX10] 0 |
|
[PbLX10] 0 |
|
[PbL2X10] 0 |
|
[PbL3X10] 0 |
|
[PbL4X10] 0 |
X+2Z = 11 | |
[PbXZ5] 0 |
|
[PbX3Z4] 0 |
|
[PbX5Z3] 0 |
|
[PbX7Z2] 0 |
|
[PbX9Z] 0 |
|
[PbX11] 0 |
|
[PbLX11] 0 |
|
[PbL2X11] 0 |
|
[PbL3X11] 0 |
|
X+2Z = 12 | [PbZ6] 0 |
|
[PbX2Z5] 0 |
|
[PbX4Z4] 0 |
|
[PbX6Z3] 0 |
|
[PbX8Z2] 0 |
|
[PbX10Z] 0 |
|
[PbX12] 0 |
|
[PbLX12] 0 |
|
[PbL2X12] 0 |
|
[PbL3X12] 0 |
MLXZq± grid for lead (Pb) for Q = 1: [PbXxLlZz]+
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 lead 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 | |
[PbL]+ 0 |
|
[PbL2]+ 0 |
|
[PbL3]+ 0 |
|
[PbL4]+ 0 |
|
[PbL5]+ 0 |
|
[PbL6]+ 0 |
|
[PbL7]+ 0 |
|
[PbL8]+ 0 |
|
[PbL9]+ 0 |
|
X+2Z = 1 | [PbX]+ 0 |
|
[PbLX]+ 0 |
|
[PbL2X]+ 13% |
|
[PbL3X]+ 0 |
|
[PbL4X]+ 13% |
|
[PbL5X]+ 38% |
|
[PbL6X]+ 13% |
|
[PbL7X]+ 0 |
|
[PbL8X]+ 13% |
|
[PbL9X]+ 13% |
X+2Z = 2 | |
[PbX2]+ 0 |
|
[PbLX2]+ 0 |
|
[PbL2X2]+ 0 |
|
[PbL3X2]+ 0 |
|
[PbL4X2]+ 0 |
|
[PbL5X2]+ 0 |
|
[PbL6X2]+ 0 |
|
[PbL7X2]+ 0 |
|
[PbL8X2]+ 0 |
|
X+2Z = 3 | [PbXZ]+ 0 |
|
[PbX3]+ 0 |
|
[PbLX3]+ 0 |
|
[PbL2X3]+ 0 |
|
[PbL3X3]+ 0 |
|
[PbL4X3]+ 0 |
|
[PbL5X3]+ 0 |
|
[PbL6X3]+ 0 |
|
[PbL7X3]+ 0 |
|
[PbL8X3]+ 0 |
X+2Z = 4 | |
[PbX2Z]+ 0 |
|
[PbX4]+ 0 |
|
[PbLX4]+ 0 |
|
[PbL2X4]+ 0 |
|
[PbL3X4]+ 0 |
|
[PbL4X4]+ 0 |
|
[PbL5X4]+ 0 |
|
[PbL6X4]+ 0 |
|
[PbL7X4]+ 0 |
|
X+2Z = 5 | [PbXZ2]+ 0 |
|
[PbX3Z]+ 0 |
|
[PbX5]+ 0 |
|
[PbLX5]+ 0 |
|
[PbL2X5]+ 0 |
|
[PbL3X5]+ 0 |
|
[PbL4X5]+ 0 |
|
[PbL5X5]+ 0 |
|
[PbL6X5]+ 0 |
|
[PbL7X5]+ 0 |
X+2Z = 6 | |
[PbX2Z2]+ 0 |
|
[PbX4Z]+ 0 |
|
[PbX6]+ 0 |
|
[PbLX6]+ 0 |
|
[PbL2X6]+ 0 |
|
[PbL3X6]+ 0 |
|
[PbL4X6]+ 0 |
|
[PbL5X6]+ 0 |
|
[PbL6X6]+ 0 |
|
X+2Z = 7 | [PbXZ3]+ 0 |
|
[PbX3Z2]+ 0 |
|
[PbX5Z]+ 0 |
|
[PbX7]+ 0 |
|
[PbLX7]+ 0 |
|
[PbL2X7]+ 0 |
|
[PbL3X7]+ 0 |
|
[PbL4X7]+ 0 |
|
[PbL5X7]+ 0 |
|
[PbL6X7]+ 0 |
X+2Z = 8 | |
[PbX2Z3]+ 0 |
|
[PbX4Z2]+ 0 |
|
[PbX6Z]+ 0 |
|
[PbX8]+ 0 |
|
[PbLX8]+ 0 |
|
[PbL2X8]+ 0 |
|
[PbL3X8]+ 0 |
|
[PbL4X8]+ 0 |
|
[PbL5X8]+ 0 |
|
X+2Z = 9 | [PbXZ4]+ 0 |
|
[PbX3Z3]+ 0 |
|
[PbX5Z2]+ 0 |
|
[PbX7Z]+ 0 |
|
[PbX9]+ 0 |
|
[PbLX9]+ 0 |
|
[PbL2X9]+ 0 |
|
[PbL3X9]+ 0 |
|
[PbL4X9]+ 0 |
|
[PbL5X9]+ 0 |
X+2Z = 10 | |
[PbX2Z4]+ 0 |
|
[PbX4Z3]+ 0 |
|
[PbX6Z2]+ 0 |
|
[PbX8Z]+ 0 |
|
[PbX10]+ 0 |
|
[PbLX10]+ 0 |
|
[PbL2X10]+ 0 |
|
[PbL3X10]+ 0 |
|
[PbL4X10]+ 0 |
|
X+2Z = 11 | [PbXZ5]+ 0 |
|
[PbX3Z4]+ 0 |
|
[PbX5Z3]+ 0 |
|
[PbX7Z2]+ 0 |
|
[PbX9Z]+ 0 |
|
[PbX11]+ 0 |
|
[PbLX11]+ 0 |
|
[PbL2X11]+ 0 |
|
[PbL3X11]+ 0 |
|
[PbL4X11]+ 0 |
X+2Z = 12 | |
[PbX2Z5]+ 0 |
|
[PbX4Z4]+ 0 |
|
[PbX6Z3]+ 0 |
|
[PbX8Z2]+ 0 |
|
[PbX10Z]+ 0 |
|
[PbX12]+ 0 |
|
[PbLX12]+ 0 |
|
[PbL2X12]+ 0 |
|
[PbL3X12]+ 0 |
|
MLXZq± grid for lead (Pb) for Q = 2: [PbXxLlZz]2+
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 lead 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 | [PbL]2+ 0 |
|
[PbL2]2+ 0 |
|
[PbL3]2+ 15% |
|
[PbL4]2+ 20% |
|
[PbL5]2+ 5% |
|
[PbL6]2+ 30% |
|
[PbL7]2+ 0 |
|
[PbL8]2+ 15% |
|
[PbL9]2+ 10% |
|
[PbL10]2+ 5% |
X+2Z = 1 | |
[PbLX]2+ 0 |
|
[PbL2X]2+ 0 |
|
[PbL3X]2+ 0 |
|
[PbL4X]2+ 0 |
|
[PbL5X]2+ 0 |
|
[PbL6X]2+ 0 |
|
[PbL7X]2+ 0 |
|
[PbL8X]2+ 0 |
|
[PbL9X]2+ 0 |
|
X+2Z = 2 | [PbX2]2+ 0 |
|
[PbLX2]2+ 0 |
|
[PbL2X2]2+ 0 |
|
[PbL3X2]2+ 0 |
|
[PbL4X2]2+ 0 |
|
[PbL5X2]2+ 0 |
|
[PbL6X2]2+ 0 |
|
[PbL7X2]2+ 0 |
|
[PbL8X2]2+ 0 |
|
[PbL9X2]2+ 0 |
X+2Z = 3 | |
[PbX3]2+ 0 |
|
[PbLX3]2+ 0 |
|
[PbL2X3]2+ 0 |
|
[PbL3X3]2+ 0 |
|
[PbL4X3]2+ 0 |
|
[PbL5X3]2+ 0 |
|
[PbL6X3]2+ 0 |
|
[PbL7X3]2+ 0 |
|
[PbL8X3]2+ 0 |
|
X+2Z = 4 | [PbX2Z]2+ 0 |
|
[PbX4]2+ 0 |
|
[PbLX4]2+ 0 |
|
[PbL2X4]2+ 0 |
|
[PbL3X4]2+ 0 |
|
[PbL4X4]2+ 0 |
|
[PbL5X4]2+ 0 |
|
[PbL6X4]2+ 0 |
|
[PbL7X4]2+ 0 |
|
[PbL8X4]2+ 0 |
X+2Z = 5 | |
[PbX3Z]2+ 0 |
|
[PbX5]2+ 0 |
|
[PbLX5]2+ 0 |
|
[PbL2X5]2+ 0 |
|
[PbL3X5]2+ 0 |
|
[PbL4X5]2+ 0 |
|
[PbL5X5]2+ 0 |
|
[PbL6X5]2+ 0 |
|
[PbL7X5]2+ 0 |
|
X+2Z = 6 | [PbX2Z2]2+ 0 |
|
[PbX4Z]2+ 0 |
|
[PbX6]2+ 0 |
|
[PbLX6]2+ 0 |
|
[PbL2X6]2+ 0 |
|
[PbL3X6]2+ 0 |
|
[PbL4X6]2+ 0 |
|
[PbL5X6]2+ 0 |
|
[PbL6X6]2+ 0 |
|
[PbL7X6]2+ 0 |
X+2Z = 7 | |
[PbX3Z2]2+ 0 |
|
[PbX5Z]2+ 0 |
|
[PbX7]2+ 0 |
|
[PbLX7]2+ 0 |
|
[PbL2X7]2+ 0 |
|
[PbL3X7]2+ 0 |
|
[PbL4X7]2+ 0 |
|
[PbL5X7]2+ 0 |
|
[PbL6X7]2+ 0 |
|
X+2Z = 8 | [PbX2Z3]2+ 0 |
|
[PbX4Z2]2+ 0 |
|
[PbX6Z]2+ 0 |
|
[PbX8]2+ 0 |
|
[PbLX8]2+ 0 |
|
[PbL2X8]2+ 0 |
|
[PbL3X8]2+ 0 |
|
[PbL4X8]2+ 0 |
|
[PbL5X8]2+ 0 |
|
[PbL6X8]2+ 0 |
X+2Z = 9 | |
[PbX3Z3]2+ 0 |
|
[PbX5Z2]2+ 0 |
|
[PbX7Z]2+ 0 |
|
[PbX9]2+ 0 |
|
[PbLX9]2+ 0 |
|
[PbL2X9]2+ 0 |
|
[PbL3X9]2+ 0 |
|
[PbL4X9]2+ 0 |
|
[PbL5X9]2+ 0 |
|
X+2Z = 10 | [PbX2Z4]2+ 0 |
|
[PbX4Z3]2+ 0 |
|
[PbX6Z2]2+ 0 |
|
[PbX8Z]2+ 0 |
|
[PbX10]2+ 0 |
|
[PbLX10]2+ 0 |
|
[PbL2X10]2+ 0 |
|
[PbL3X10]2+ 0 |
|
[PbL4X10]2+ 0 |
|
[PbL5X10]2+ 0 |
X+2Z = 11 | |
[PbX3Z4]2+ 0 |
|
[PbX5Z3]2+ 0 |
|
[PbX7Z2]2+ 0 |
|
[PbX9Z]2+ 0 |
|
[PbX11]2+ 0 |
|
[PbLX11]2+ 0 |
|
[PbL2X11]2+ 0 |
|
[PbL3X11]2+ 0 |
|
[PbL4X11]2+ 0 |
|
X+2Z = 12 | [PbX2Z5]2+ 0 |
|
[PbX4Z4]2+ 0 |
|
[PbX6Z3]2+ 0 |
|
[PbX8Z2]2+ 0 |
|
[PbX10Z]2+ 0 |
|
[PbX12]2+ 0 |
|
[PbLX12]2+ 0 |
|
[PbL2X12]2+ 0 |
|
[PbL3X12]2+ 0 |
|
[PbL4X12]2+ 0 |
MLXZq± grid for lead (Pb) for Q = 3: [PbXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for lead (Pb) for Q = 4: [PbXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = -6: [FlXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = -5: [FlXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = -4: [FlXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = -3: [FlXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = -2: [FlXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = -1: [FlXxLlZz]-
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = 0: [FlXxLlZz]
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = 1: [FlXxLlZz]+
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = 2: [FlXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = 3: [FlXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for flerovium (Fl) for Q = 4: [FlXxLlZz]4+
The number of compounds found is 0.