MLXZ Grid

MLXZ grid for copper (Cu) for Q = -6: [CuXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for copper (Cu) for Q = -5: [CuXxLlZz]5-

The number of compounds found is 0.

MLXZ 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] 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] 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

MLXZ 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] 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] 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
 
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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
 
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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
 
 

MLXZ 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] 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] 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

MLXZ grid for copper (Cu) for Q = 3: [CuXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for copper (Cu) for Q = 4: [CuXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for silver (Ag) for Q = -6: [AgXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for silver (Ag) for Q = -5: [AgXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for silver (Ag) for Q = -4: [AgXxLlZz]4-

The number of compounds found is 0.

MLXZ 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] 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] 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

MLXZ 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] 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] 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
 
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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
 
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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
 
 

MLXZ grid for silver (Ag) for Q = 3: [AgXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for silver (Ag) for Q = 4: [AgXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for gold (Au) for Q = -6: [AuXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for gold (Au) for Q = -5: [AuXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for gold (Au) for Q = -4: [AuXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for gold (Au) for Q = -3: [AuXxLlZz]3-

The number of compounds found is 0.

MLXZ 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] 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] 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
 
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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
 
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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
 
 

MLXZ 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] 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] 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

MLXZ grid for gold (Au) for Q = 4: [AuXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = -6: [RgXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = -5: [RgXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = -4: [RgXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = -3: [RgXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = -2: [RgXxLlZz]2-

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = -1: [RgXxLlZz]-

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = 0: [RgXxLlZz]

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = 1: [RgXxLlZz]+

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = 2: [RgXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = 3: [RgXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for roentgenium (Rg) for Q = 4: [RgXxLlZz]4+

The number of compounds found is 0.