MLXZ Grid

MLXZ grid for carbon (C) for Q = -6: [CXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for carbon (C) for Q = -5: [CXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for carbon (C) for Q = -4: [CXxLlZz]4-

The number of compounds found is 0.

MLXZ 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] 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] 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		  
 

MLXZ grid for carbon (C) for Q = -2: [CXxLlZz]2-

The number of compounds found is 0.

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ grid for carbon (C) for Q = 2: [CXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for carbon (C) for Q = 3: [CXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for carbon (C) for Q = 4: [CXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for silicon (Si) for Q = -6: [SiXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for silicon (Si) for Q = -5: [SiXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for silicon (Si) for Q = -4: [SiXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for silicon (Si) for Q = -3: [SiXxLlZz]3-

The number of compounds found is 0.

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ grid for silicon (Si) for Q = 3: [SiXxLlZz]3+

The number of compounds found is 0.

MLXZ 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] 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] 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

MLXZ grid for germanium (Ge) for Q = -6: [GeXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for germanium (Ge) for Q = -5: [GeXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for germanium (Ge) for Q = -4: [GeXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for germanium (Ge) for Q = -3: [GeXxLlZz]3-

The number of compounds found is 0.

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ grid for germanium (Ge) for Q = 3: [GeXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for germanium (Ge) for Q = 4: [GeXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for tin (Sn) for Q = -6: [SnXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for tin (Sn) for Q = -5: [SnXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for tin (Sn) for Q = -4: [SnXxLlZz]4-

The number of compounds found is 0.

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ grid for tin (Sn) for Q = 4: [SnXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for lead (Pb) for Q = -6: [PbXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for lead (Pb) for Q = -5: [PbXxLlZz]5-

The number of compounds found is 0.

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ 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] 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] 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		  
 

MLXZ 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] 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] 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

MLXZ grid for lead (Pb) for Q = 3: [PbXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for lead (Pb) for Q = 4: [PbXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = -6: [FlXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = -5: [FlXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = -4: [FlXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = -3: [FlXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = -2: [FlXxLlZz]2-

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = -1: [FlXxLlZz]-

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = 0: [FlXxLlZz]

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = 1: [FlXxLlZz]+

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = 2: [FlXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = 3: [FlXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for flerovium (Fl) for Q = 4: [FlXxLlZz]4+

The number of compounds found is 0.