MLXZ Grid

MLXZ grid for titanium (Ti) for Q = -6: [TiXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for titanium (Ti) for Q = -5: [TiXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for titanium (Ti) for Q = -4: [TiXxLlZz]4-

The number of compounds found is 1.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 titanium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [Ti]4-
0
 
 
[TiL]4-
0
 
 
[TiL2]4-
0
 
 
[TiL3]4-
0
 
 
[TiL4]4-
0
 
 
[TiL5]4-
0
X+2Z = 1  
 
[TiX]4-
0
 
 
[TiLX]4-
0
 
 
[TiL2X]4-
0
 
 
[TiL3X]4-
0
 
 
[TiL4X]4-
0
 
 
X+2Z = 2 [TiZ]4-
0
 
 
[TiX2]4-
0
 
 
[TiLX2]4-
0
 
 
[TiL2X2]4-
0
 
 
[TiL3X2]4-
0
 
 
[TiL4X2]4-
0
X+2Z = 3  
 
[TiXZ]4-
0
 
 
[TiX3]4-
0
 
 
[TiLX3]4-
0
 
 
[TiL2X3]4-
0
 
 
[TiL3X3]4-
0
 
 
X+2Z = 4 [TiZ2]4-
0
 
 
[TiX2Z]4-
0
 
 
[TiX4]4-
0
 
 
[TiLX4]4-
0
 
 
[TiL2X4]4-
0
 
 
[TiL3X4]4-
0
X+2Z = 5  
 
[TiXZ2]4-
0
 
 
[TiX3Z]4-
0
 
 
[TiX5]4-
0
 
 
[TiLX5]4-
0
 
 
[TiL2X5]4-
0
 
 
X+2Z = 6 [TiZ3]4-
0
 
 
[TiX2Z2]4-
0
 
 
[TiX4Z]4-
0
 
 
[TiX6]4-
0
 
 
[TiLX6]4-
0
 
 
[TiL2X6]4-
0
X+2Z = 7  
 
[TiXZ3]4-
0
 
 
[TiX3Z2]4-
0
 
 
[TiX5Z]4-
0
 
 
[TiX7]4-
0
 
 
[TiLX7]4-
0
 
 
X+2Z = 8 [TiZ4]4-
0
 
 
[TiX2Z3]4-
0
 
 
[TiX4Z2]4-
0
 
 
[TiX6Z]4-
0
 
 
[TiX8]4-
100%
 
 
[TiLX8]4-
0
X+2Z = 9  
 
[TiXZ4]4-
0
 
 
[TiX3Z3]4-
0
 
 
[TiX5Z2]4-
0
 
 
[TiX7Z]4-
0
 
 
[TiX9]4-
0
 
 
X+2Z = 10 [TiZ5]4-
0
 
 
[TiX2Z4]4-
0
 
 
[TiX4Z3]4-
0
 
 
[TiX6Z2]4-
0
 
 
[TiX8Z]4-
0
 
 
[TiX10]4-
0
X+2Z = 11  
 
[TiXZ5]4-
0
 
 
[TiX3Z4]4-
0
 
 
[TiX5Z3]4-
0
 
 
[TiX7Z2]4-
0
 
 
[TiX9Z]4-
0
 
 
X+2Z = 12 [TiZ6]4-
0
 
 
[TiX2Z5]4-
0
 
 
[TiX4Z4]4-
0
 
 
[TiX6Z3]4-
0
 
 
[TiX8Z2]4-
0
 
 
[TiX10Z]4-
0

MLXZ grid for titanium (Ti) for Q = -3: [TiXxLlZz]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 titanium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0  
 
[TiL]3-
0
 
 
[TiL2]3-
0
 
 
[TiL3]3-
0
 
 
[TiL4]3-
0
 
 
[TiL5]3-
0
 
 
X+2Z = 1 [TiX]3-
0
 
 
[TiLX]3-
0
 
 
[TiL2X]3-
0
 
 
[TiL3X]3-
0
 
 
[TiL4X]3-
0
 
 
[TiL5X]3-
0
X+2Z = 2  
 
[TiX2]3-
0
 
 
[TiLX2]3-
0
 
 
[TiL2X2]3-
0
 
 
[TiL3X2]3-
0
 
 
[TiL4X2]3-
0
 
 
X+2Z = 3 [TiXZ]3-
0
 
 
[TiX3]3-
0
 
 
[TiLX3]3-
0
 
 
[TiL2X3]3-
0
 
 
[TiL3X3]3-
0
 
 
[TiL4X3]3-
0
X+2Z = 4  
 
[TiX2Z]3-
0
 
 
[TiX4]3-
0
 
 
[TiLX4]3-
0
 
 
[TiL2X4]3-
0
 
 
[TiL3X4]3-
0
 
 
X+2Z = 5 [TiXZ2]3-
0
 
 
[TiX3Z]3-
0
 
 
[TiX5]3-
0
 
 
[TiLX5]3-
0
 
 
[TiL2X5]3-
0
 
 
[TiL3X5]3-
0
X+2Z = 6  
 
[TiX2Z2]3-
0
 
 
[TiX4Z]3-
0
 
 
[TiX6]3-
50%
 
 
[TiLX6]3-
0
 
 
[TiL2X6]3-
0
 
 
X+2Z = 7 [TiXZ3]3-
0
 
 
[TiX3Z2]3-
0
 
 
[TiX5Z]3-
0
 
 
[TiX7]3-
50%
 
 
[TiLX7]3-
0
 
 
[TiL2X7]3-
0
X+2Z = 8  
 
[TiX2Z3]3-
0
 
 
[TiX4Z2]3-
0
 
 
[TiX6Z]3-
0
 
 
[TiX8]3-
0
 
 
[TiLX8]3-
0
 
 
X+2Z = 9 [TiXZ4]3-
0
 
 
[TiX3Z3]3-
0
 
 
[TiX5Z2]3-
0
 
 
[TiX7Z]3-
0
 
 
[TiX9]3-
0
 
 
[TiLX9]3-
0
X+2Z = 10  
 
[TiX2Z4]3-
0
 
 
[TiX4Z3]3-
0
 
 
[TiX6Z2]3-
0
 
 
[TiX8Z]3-
0
 
 
[TiX10]3-
0
 
 
X+2Z = 11 [TiXZ5]3-
0
 
 
[TiX3Z4]3-
0
 
 
[TiX5Z3]3-
0
 
 
[TiX7Z2]3-
0
 
 
[TiX9Z]3-
0
 
 
[TiX11]3-
0
X+2Z = 12  
 
[TiX2Z5]3-
0
 
 
[TiX4Z4]3-
0
 
 
[TiX6Z3]3-
0
 
 
[TiX8Z2]3-
0
 
 
[TiX10Z]3-
0
 
 

MLXZ grid for titanium (Ti) for Q = -2: [TiXxLlZz]2-

The number of compounds found is 17.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 titanium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [TiL]2-
0
 
 
[TiL2]2-
0
 
 
[TiL3]2-
0
 
 
[TiL4]2-
0
 
 
[TiL5]2-
0
 
 
[TiL6]2-
0
X+2Z = 1  
 
[TiLX]2-
0
 
 
[TiL2X]2-
0
 
 
[TiL3X]2-
0
 
 
[TiL4X]2-
0
 
 
[TiL5X]2-
0
 
 
X+2Z = 2 [TiX2]2-
0
 
 
[TiLX2]2-
0
 
 
[TiL2X2]2-
0
 
 
[TiL3X2]2-
0
 
 
[TiL4X2]2-
6%
 
 
[TiL5X2]2-
6%
X+2Z = 3  
 
[TiX3]2-
0
 
 
[TiLX3]2-
0
 
 
[TiL2X3]2-
0
 
 
[TiL3X3]2-
0
 
 
[TiL4X3]2-
0
 
 
X+2Z = 4 [TiX2Z]2-
0
 
 
[TiX4]2-
0
 
 
[TiLX4]2-
0
 
 
[TiL2X4]2-
0
 
 
[TiL3X4]2-
0
 
 
[TiL4X4]2-
0
X+2Z = 5  
 
[TiX3Z]2-
0
 
 
[TiX5]2-
6%
 
 
[TiLX5]2-
0
 
 
[TiL2X5]2-
0
 
 
[TiL3X5]2-
0
 
 
X+2Z = 6 [TiX2Z2]2-
0
 
 
[TiX4Z]2-
0
 
 
[TiX6]2-
59%
 
 
[TiLX6]2-
18%
 
 
[TiL2X6]2-
0
 
 
[TiL3X6]2-
6%
X+2Z = 7  
 
[TiX3Z2]2-
0
 
 
[TiX5Z]2-
0
 
 
[TiX7]2-
0
 
 
[TiLX7]2-
0
 
 
[TiL2X7]2-
0
 
 
X+2Z = 8 [TiX2Z3]2-
0
 
 
[TiX4Z2]2-
0
 
 
[TiX6Z]2-
0
 
 
[TiX8]2-
0
 
 
[TiLX8]2-
0
 
 
[TiL2X8]2-
0
X+2Z = 9  
 
[TiX3Z3]2-
0
 
 
[TiX5Z2]2-
0
 
 
[TiX7Z]2-
0
 
 
[TiX9]2-
0
 
 
[TiLX9]2-
0
 
 
X+2Z = 10 [TiX2Z4]2-
0
 
 
[TiX4Z3]2-
0
 
 
[TiX6Z2]2-
0
 
 
[TiX8Z]2-
0
 
 
[TiX10]2-
0
 
 
[TiLX10]2-
0
X+2Z = 11  
 
[TiX3Z4]2-
0
 
 
[TiX5Z3]2-
0
 
 
[TiX7Z2]2-
0
 
 
[TiX9Z]2-
0
 
 
[TiX11]2-
0
 
 
X+2Z = 12 [TiX2Z5]2-
0
 
 
[TiX4Z4]2-
0
 
 
[TiX6Z3]2-
0
 
 
[TiX8Z2]2-
0
 
 
[TiX10Z]2-
0
 
 
[TiX12]2-
0

MLXZ grid for titanium (Ti) for Q = -1: [TiXxLlZz]-

The number of compounds found is 21.

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 titanium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0  
 
[TiL2]-
0
 
 
[TiL3]-
0
 
 
[TiL4]-
0
 
 
[TiL5]-
0
 
 
[TiL6]-
0
 
 
X+2Z = 1 [TiLX]-
0
 
 
[TiL2X]-
0
 
 
[TiL3X]-
0
 
 
[TiL4X]-
0
 
 
[TiL5X]-
5%
 
 
[TiL6X]-
14%
X+2Z = 2  
 
[TiLX2]-
0
 
 
[TiL2X2]-
0
 
 
[TiL3X2]-
0
 
 
[TiL4X2]-
0
 
 
[TiL5X2]-
0
 
 
X+2Z = 3 [TiX3]-
0
 
 
[TiLX3]-
0
 
 
[TiL2X3]-
0
 
 
[TiL3X3]-
0
 
 
[TiL4X3]-
0
 
 
[TiL5X3]-
0
X+2Z = 4  
 
[TiX4]-
0
 
 
[TiLX4]-
0
 
 
[TiL2X4]-
38%
 
 
[TiL3X4]-
0
 
 
[TiL4X4]-
0
 
 
X+2Z = 5 [TiX3Z]-
0
 
 
[TiX5]-
5%
 
 
[TiLX5]-
29%
 
 
[TiL2X5]-
10%
 
 
[TiL3X5]-
0
 
 
[TiL4X5]-
0
X+2Z = 6  
 
[TiX4Z]-
0
 
 
[TiX6]-
0
 
 
[TiLX6]-
0
 
 
[TiL2X6]-
0
 
 
[TiL3X6]-
0
 
 
X+2Z = 7 [TiX3Z2]-
0
 
 
[TiX5Z]-
0
 
 
[TiX7]-
0
 
 
[TiLX7]-
0
 
 
[TiL2X7]-
0
 
 
[TiL3X7]-
0
X+2Z = 8  
 
[TiX4Z2]-
0
 
 
[TiX6Z]-
0
 
 
[TiX8]-
0
 
 
[TiLX8]-
0
 
 
[TiL2X8]-
0
 
 
X+2Z = 9 [TiX3Z3]-
0
 
 
[TiX5Z2]-
0
 
 
[TiX7Z]-
0
 
 
[TiX9]-
0
 
 
[TiLX9]-
0
 
 
[TiL2X9]-
0
X+2Z = 10  
 
[TiX4Z3]-
0
 
 
[TiX6Z2]-
0
 
 
[TiX8Z]-
0
 
 
[TiX10]-
0
 
 
[TiLX10]-
0
 
 
X+2Z = 11 [TiX3Z4]-
0
 
 
[TiX5Z3]-
0
 
 
[TiX7Z2]-
0
 
 
[TiX9Z]-
0
 
 
[TiX11]-
0
 
 
[TiLX11]-
0
X+2Z = 12  
 
[TiX4Z4]-
0
 
 
[TiX6Z3]-
0
 
 
[TiX8Z2]-
0
 
 
[TiX10Z]-
0
 
 
[TiX12]-
0
 
 

MLXZ grid for titanium (Ti) for Q = 0: [TiXxLlZz]

The number of compounds found is 334.

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 titanium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [TiL2]
0
 
 
[TiL3]
0
 
 
[TiL4]
0
 
 
[TiL5]
0
 
 
[TiL6]
1%
 
 
[TiL7]
1%
X+2Z = 1  
 
[TiL2X]
0
 
 
[TiL3X]
0
 
 
[TiL4X]
0
 
 
[TiL5X]
0
 
 
[TiL6X]
0
 
 
X+2Z = 2 [TiLX2]
0
 
 
[TiL2X2]
0.3%
 
 
[TiL3X2]
0.3%
 
 
[TiL4X2]
2%
 
 
[TiL5X2]
1%
 
 
[TiL6X2]
5%
X+2Z = 3  
 
[TiLX3]
0
 
 
[TiL2X3]
2%
 
 
[TiL3X3]
5%
 
 
[TiL4X3]
7%
 
 
[TiL5X3]
8%
 
 
X+2Z = 4 [TiX4]
3%
 
 
[TiLX4]
2%
 
 
[TiL2X4]
22%
 
 
[TiL3X4]
11%
 
 
[TiL4X4]
25%
 
 
[TiL5X4]
3%
X+2Z = 5  
 
[TiX5]
0
 
 
[TiLX5]
0
 
 
[TiL2X5]
0
 
 
[TiL3X5]
0
 
 
[TiL4X5]
0
 
 
X+2Z = 6 [TiX4Z]
0
 
 
[TiX6]
0
 
 
[TiLX6]
0
 
 
[TiL2X6]
0
 
 
[TiL3X6]
0
 
 
[TiL4X6]
0
X+2Z = 7  
 
[TiX5Z]
0
 
 
[TiX7]
0
 
 
[TiLX7]
0
 
 
[TiL2X7]
0
 
 
[TiL3X7]
0
 
 
X+2Z = 8 [TiX4Z2]
0
 
 
[TiX6Z]
0
 
 
[TiX8]
0
 
 
[TiLX8]
0
 
 
[TiL2X8]
0
 
 
[TiL3X8]
0
X+2Z = 9  
 
[TiX5Z2]
0
 
 
[TiX7Z]
0
 
 
[TiX9]
0
 
 
[TiLX9]
0
 
 
[TiL2X9]
0
 
 
X+2Z = 10 [TiX4Z3]
0
 
 
[TiX6Z2]
0
 
 
[TiX8Z]
0
 
 
[TiX10]
0
 
 
[TiLX10]
0
 
 
[TiL2X10]
0
X+2Z = 11  
 
[TiX5Z3]
0
 
 
[TiX7Z2]
0
 
 
[TiX9Z]
0
 
 
[TiX11]
0
 
 
[TiLX11]
0
 
 
X+2Z = 12 [TiX4Z4]
0
 
 
[TiX6Z3]
0
 
 
[TiX8Z2]
0
 
 
[TiX10Z]
0
 
 
[TiX12]
0
 
 
[TiLX12]
0

MLXZ grid for titanium (Ti) for Q = 1: [TiXxLlZz]+

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 titanium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0  
 
[TiL3]+
0
 
 
[TiL4]+
0
 
 
[TiL5]+
0
 
 
[TiL6]+
0
 
 
[TiL7]+
0
 
 
X+2Z = 1 [TiL2X]+
0
 
 
[TiL3X]+
0
 
 
[TiL4X]+
0
 
 
[TiL5X]+
0
 
 
[TiL6X]+
0
 
 
[TiL7X]+
0
X+2Z = 2  
 
[TiL2X2]+
0
 
 
[TiL3X2]+
0
 
 
[TiL4X2]+
13%
 
 
[TiL5X2]+
7%
 
 
[TiL6X2]+
30%
 
 
X+2Z = 3 [TiLX3]+
0
 
 
[TiL2X3]+
0
 
 
[TiL3X3]+
23%
 
 
[TiL4X3]+
0
 
 
[TiL5X3]+
27%
 
 
[TiL6X3]+
0
X+2Z = 4  
 
[TiLX4]+
0
 
 
[TiL2X4]+
0
 
 
[TiL3X4]+
0
 
 
[TiL4X4]+
0
 
 
[TiL5X4]+
0
 
 
X+2Z = 5 [TiX5]+
0
 
 
[TiLX5]+
0
 
 
[TiL2X5]+
0
 
 
[TiL3X5]+
0
 
 
[TiL4X5]+
0
 
 
[TiL5X5]+
0
X+2Z = 6  
 
[TiX6]+
0
 
 
[TiLX6]+
0
 
 
[TiL2X6]+
0
 
 
[TiL3X6]+
0
 
 
[TiL4X6]+
0
 
 
X+2Z = 7 [TiX5Z]+
0
 
 
[TiX7]+
0
 
 
[TiLX7]+
0
 
 
[TiL2X7]+
0
 
 
[TiL3X7]+
0
 
 
[TiL4X7]+
0
X+2Z = 8  
 
[TiX6Z]+
0
 
 
[TiX8]+
0
 
 
[TiLX8]+
0
 
 
[TiL2X8]+
0
 
 
[TiL3X8]+
0
 
 
X+2Z = 9 [TiX5Z2]+
0
 
 
[TiX7Z]+
0
 
 
[TiX9]+
0
 
 
[TiLX9]+
0
 
 
[TiL2X9]+
0
 
 
[TiL3X9]+
0
X+2Z = 10  
 
[TiX6Z2]+
0
 
 
[TiX8Z]+
0
 
 
[TiX10]+
0
 
 
[TiLX10]+
0
 
 
[TiL2X10]+
0
 
 
X+2Z = 11 [TiX5Z3]+
0
 
 
[TiX7Z2]+
0
 
 
[TiX9Z]+
0
 
 
[TiX11]+
0
 
 
[TiLX11]+
0
 
 
[TiL2X11]+
0
X+2Z = 12  
 
[TiX6Z3]+
0
 
 
[TiX8Z2]+
0
 
 
[TiX10Z]+
0
 
 
[TiX12]+
0
 
 
[TiLX12]+
0
 
 

MLXZ grid for titanium (Ti) for Q = 2: [TiXxLlZz]2+

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 titanium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [TiL3]2+
0
 
 
[TiL4]2+
0
 
 
[TiL5]2+
0
 
 
[TiL6]2+
0
 
 
[TiL7]2+
0
 
 
[TiL8]2+
0
X+2Z = 1  
 
[TiL3X]2+
0
 
 
[TiL4X]2+
0
 
 
[TiL5X]2+
0
 
 
[TiL6X]2+
13%
 
 
[TiL7X]2+
0
 
 
X+2Z = 2 [TiL2X2]2+
0
 
 
[TiL3X2]2+
0
 
 
[TiL4X2]2+
0
 
 
[TiL5X2]2+
25%
 
 
[TiL6X2]2+
63%
 
 
[TiL7X2]2+
0
X+2Z = 3  
 
[TiL2X3]2+
0
 
 
[TiL3X3]2+
0
 
 
[TiL4X3]2+
0
 
 
[TiL5X3]2+
0
 
 
[TiL6X3]2+
0
 
 
X+2Z = 4 [TiLX4]2+
0
 
 
[TiL2X4]2+
0
 
 
[TiL3X4]2+
0
 
 
[TiL4X4]2+
0
 
 
[TiL5X4]2+
0
 
 
[TiL6X4]2+
0
X+2Z = 5  
 
[TiLX5]2+
0
 
 
[TiL2X5]2+
0
 
 
[TiL3X5]2+
0
 
 
[TiL4X5]2+
0
 
 
[TiL5X5]2+
0
 
 
X+2Z = 6 [TiX6]2+
0
 
 
[TiLX6]2+
0
 
 
[TiL2X6]2+
0
 
 
[TiL3X6]2+
0
 
 
[TiL4X6]2+
0
 
 
[TiL5X6]2+
0
X+2Z = 7  
 
[TiX7]2+
0
 
 
[TiLX7]2+
0
 
 
[TiL2X7]2+
0
 
 
[TiL3X7]2+
0
 
 
[TiL4X7]2+
0
 
 
X+2Z = 8 [TiX6Z]2+
0
 
 
[TiX8]2+
0
 
 
[TiLX8]2+
0
 
 
[TiL2X8]2+
0
 
 
[TiL3X8]2+
0
 
 
[TiL4X8]2+
0
X+2Z = 9  
 
[TiX7Z]2+
0
 
 
[TiX9]2+
0
 
 
[TiLX9]2+
0
 
 
[TiL2X9]2+
0
 
 
[TiL3X9]2+
0
 
 
X+2Z = 10 [TiX6Z2]2+
0
 
 
[TiX8Z]2+
0
 
 
[TiX10]2+
0
 
 
[TiLX10]2+
0
 
 
[TiL2X10]2+
0
 
 
[TiL3X10]2+
0
X+2Z = 11  
 
[TiX7Z2]2+
0
 
 
[TiX9Z]2+
0
 
 
[TiX11]2+
0
 
 
[TiLX11]2+
0
 
 
[TiL2X11]2+
0
 
 
X+2Z = 12 [TiX6Z3]2+
0
 
 
[TiX8Z2]2+
0
 
 
[TiX10Z]2+
0
 
 
[TiX12]2+
0
 
 
[TiLX12]2+
0
 
 
[TiL2X12]2+
0

MLXZ grid for titanium (Ti) for Q = 3: [TiXxLlZz]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 titanium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0  
 
[TiL4]3+
0
 
 
[TiL5]3+
0
 
 
[TiL6]3+
67%
 
 
[TiL7]3+
0
 
 
[TiL8]3+
0
 
 
X+2Z = 1 [TiL3X]3+
0
 
 
[TiL4X]3+
0
 
 
[TiL5X]3+
33%
 
 
[TiL6X]3+
0
 
 
[TiL7X]3+
0
 
 
[TiL8X]3+
0
X+2Z = 2  
 
[TiL3X2]3+
0
 
 
[TiL4X2]3+
0
 
 
[TiL5X2]3+
0
 
 
[TiL6X2]3+
0
 
 
[TiL7X2]3+
0
 
 
X+2Z = 3 [TiL2X3]3+
0
 
 
[TiL3X3]3+
0
 
 
[TiL4X3]3+
0
 
 
[TiL5X3]3+
0
 
 
[TiL6X3]3+
0
 
 
[TiL7X3]3+
0
X+2Z = 4  
 
[TiL2X4]3+
0
 
 
[TiL3X4]3+
0
 
 
[TiL4X4]3+
0
 
 
[TiL5X4]3+
0
 
 
[TiL6X4]3+
0
 
 
X+2Z = 5 [TiLX5]3+
0
 
 
[TiL2X5]3+
0
 
 
[TiL3X5]3+
0
 
 
[TiL4X5]3+
0
 
 
[TiL5X5]3+
0
 
 
[TiL6X5]3+
0
X+2Z = 6  
 
[TiLX6]3+
0
 
 
[TiL2X6]3+
0
 
 
[TiL3X6]3+
0
 
 
[TiL4X6]3+
0
 
 
[TiL5X6]3+
0
 
 
X+2Z = 7 [TiX7]3+
0
 
 
[TiLX7]3+
0
 
 
[TiL2X7]3+
0
 
 
[TiL3X7]3+
0
 
 
[TiL4X7]3+
0
 
 
[TiL5X7]3+
0
X+2Z = 8  
 
[TiX8]3+
0
 
 
[TiLX8]3+
0
 
 
[TiL2X8]3+
0
 
 
[TiL3X8]3+
0
 
 
[TiL4X8]3+
0
 
 
X+2Z = 9 [TiX7Z]3+
0
 
 
[TiX9]3+
0
 
 
[TiLX9]3+
0
 
 
[TiL2X9]3+
0
 
 
[TiL3X9]3+
0
 
 
[TiL4X9]3+
0
X+2Z = 10  
 
[TiX8Z]3+
0
 
 
[TiX10]3+
0
 
 
[TiLX10]3+
0
 
 
[TiL2X10]3+
0
 
 
[TiL3X10]3+
0
 
 
X+2Z = 11 [TiX7Z2]3+
0
 
 
[TiX9Z]3+
0
 
 
[TiX11]3+
0
 
 
[TiLX11]3+
0
 
 
[TiL2X11]3+
0
 
 
[TiL3X11]3+
0
X+2Z = 12  
 
[TiX8Z2]3+
0
 
 
[TiX10Z]3+
0
 
 
[TiX12]3+
0
 
 
[TiLX12]3+
0
 
 
[TiL2X12]3+
0
 
 

MLXZ grid for titanium (Ti) for Q = 4: [TiXxLlZz]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 titanium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [TiL4]4+
0
 
 
[TiL5]4+
0
 
 
[TiL6]4+
100%
 
 
[TiL7]4+
0
 
 
[TiL8]4+
0
 
 
[TiL9]4+
0
X+2Z = 1  
 
[TiL4X]4+
0
 
 
[TiL5X]4+
0
 
 
[TiL6X]4+
0
 
 
[TiL7X]4+
0
 
 
[TiL8X]4+
0
 
 
X+2Z = 2 [TiL3X2]4+
0
 
 
[TiL4X2]4+
0
 
 
[TiL5X2]4+
0
 
 
[TiL6X2]4+
0
 
 
[TiL7X2]4+
0
 
 
[TiL8X2]4+
0
X+2Z = 3  
 
[TiL3X3]4+
0
 
 
[TiL4X3]4+
0
 
 
[TiL5X3]4+
0
 
 
[TiL6X3]4+
0
 
 
[TiL7X3]4+
0
 
 
X+2Z = 4 [TiL2X4]4+
0
 
 
[TiL3X4]4+
0
 
 
[TiL4X4]4+
0
 
 
[TiL5X4]4+
0
 
 
[TiL6X4]4+
0
 
 
[TiL7X4]4+
0
X+2Z = 5  
 
[TiL2X5]4+
0
 
 
[TiL3X5]4+
0
 
 
[TiL4X5]4+
0
 
 
[TiL5X5]4+
0
 
 
[TiL6X5]4+
0
 
 
X+2Z = 6 [TiLX6]4+
0
 
 
[TiL2X6]4+
0
 
 
[TiL3X6]4+
0
 
 
[TiL4X6]4+
0
 
 
[TiL5X6]4+
0
 
 
[TiL6X6]4+
0
X+2Z = 7  
 
[TiLX7]4+
0
 
 
[TiL2X7]4+
0
 
 
[TiL3X7]4+
0
 
 
[TiL4X7]4+
0
 
 
[TiL5X7]4+
0
 
 
X+2Z = 8 [TiX8]4+
0
 
 
[TiLX8]4+
0
 
 
[TiL2X8]4+
0
 
 
[TiL3X8]4+
0
 
 
[TiL4X8]4+
0
 
 
[TiL5X8]4+
0
X+2Z = 9  
 
[TiX9]4+
0
 
 
[TiLX9]4+
0
 
 
[TiL2X9]4+
0
 
 
[TiL3X9]4+
0
 
 
[TiL4X9]4+
0
 
 
X+2Z = 10 [TiX8Z]4+
0
 
 
[TiX10]4+
0
 
 
[TiLX10]4+
0
 
 
[TiL2X10]4+
0
 
 
[TiL3X10]4+
0
 
 
[TiL4X10]4+
0
X+2Z = 11  
 
[TiX9Z]4+
0
 
 
[TiX11]4+
0
 
 
[TiLX11]4+
0
 
 
[TiL2X11]4+
0
 
 
[TiL3X11]4+
0
 
 
X+2Z = 12 [TiX8Z2]4+
0
 
 
[TiX10Z]4+
0
 
 
[TiX12]4+
0
 
 
[TiLX12]4+
0
 
 
[TiL2X12]4+
0
 
 
[TiL3X12]4+
0

MLXZ grid for zirconium (Zr) for Q = -6: [ZrXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for zirconium (Zr) for Q = -5: [ZrXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for zirconium (Zr) for Q = -4: [ZrXxLlZz]4-

The number of compounds found is 4.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [Zr]4-
0
 
 
[ZrL]4-
0
 
 
[ZrL2]4-
0
 
 
[ZrL3]4-
0
 
 
[ZrL4]4-
0
 
 
[ZrL5]4-
0
 
 
[ZrL6]4-
0
X+2Z = 1  
 
[ZrX]4-
0
 
 
[ZrLX]4-
0
 
 
[ZrL2X]4-
0
 
 
[ZrL3X]4-
0
 
 
[ZrL4X]4-
0
 
 
[ZrL5X]4-
0
 
 
X+2Z = 2 [ZrZ]4-
0
 
 
[ZrX2]4-
0
 
 
[ZrLX2]4-
0
 
 
[ZrL2X2]4-
0
 
 
[ZrL3X2]4-
0
 
 
[ZrL4X2]4-
0
 
 
[ZrL5X2]4-
0
X+2Z = 3  
 
[ZrXZ]4-
0
 
 
[ZrX3]4-
0
 
 
[ZrLX3]4-
0
 
 
[ZrL2X3]4-
0
 
 
[ZrL3X3]4-
0
 
 
[ZrL4X3]4-
0
 
 
X+2Z = 4 [ZrZ2]4-
0
 
 
[ZrX2Z]4-
0
 
 
[ZrX4]4-
0
 
 
[ZrLX4]4-
0
 
 
[ZrL2X4]4-
0
 
 
[ZrL3X4]4-
0
 
 
[ZrL4X4]4-
0
X+2Z = 5  
 
[ZrXZ2]4-
0
 
 
[ZrX3Z]4-
0
 
 
[ZrX5]4-
0
 
 
[ZrLX5]4-
0
 
 
[ZrL2X5]4-
0
 
 
[ZrL3X5]4-
0
 
 
X+2Z = 6 [ZrZ3]4-
0
 
 
[ZrX2Z2]4-
0
 
 
[ZrX4Z]4-
0
 
 
[ZrX6]4-
0
 
 
[ZrLX6]4-
0
 
 
[ZrL2X6]4-
0
 
 
[ZrL3X6]4-
0
X+2Z = 7  
 
[ZrXZ3]4-
0
 
 
[ZrX3Z2]4-
0
 
 
[ZrX5Z]4-
0
 
 
[ZrX7]4-
0
 
 
[ZrLX7]4-
0
 
 
[ZrL2X7]4-
0
 
 
X+2Z = 8 [ZrZ4]4-
0
 
 
[ZrX2Z3]4-
0
 
 
[ZrX4Z2]4-
0
 
 
[ZrX6Z]4-
0
 
 
[ZrX8]4-
100%
 
 
[ZrLX8]4-
0
 
 
[ZrL2X8]4-
0
X+2Z = 9  
 
[ZrXZ4]4-
0
 
 
[ZrX3Z3]4-
0
 
 
[ZrX5Z2]4-
0
 
 
[ZrX7Z]4-
0
 
 
[ZrX9]4-
0
 
 
[ZrLX9]4-
0
 
 
X+2Z = 10 [ZrZ5]4-
0
 
 
[ZrX2Z4]4-
0
 
 
[ZrX4Z3]4-
0
 
 
[ZrX6Z2]4-
0
 
 
[ZrX8Z]4-
0
 
 
[ZrX10]4-
0
 
 
[ZrLX10]4-
0
X+2Z = 11  
 
[ZrXZ5]4-
0
 
 
[ZrX3Z4]4-
0
 
 
[ZrX5Z3]4-
0
 
 
[ZrX7Z2]4-
0
 
 
[ZrX9Z]4-
0
 
 
[ZrX11]4-
0
 
 
X+2Z = 12 [ZrZ6]4-
0
 
 
[ZrX2Z5]4-
0
 
 
[ZrX4Z4]4-
0
 
 
[ZrX6Z3]4-
0
 
 
[ZrX8Z2]4-
0
 
 
[ZrX10Z]4-
0
 
 
[ZrX12]4-
0

MLXZ grid for zirconium (Zr) for Q = -3: [ZrXxLlZz]3-

The number of compounds found is 2.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0  
 
[ZrL]3-
0
 
 
[ZrL2]3-
0
 
 
[ZrL3]3-
0
 
 
[ZrL4]3-
0
 
 
[ZrL5]3-
0
 
 
[ZrL6]3-
0
 
 
X+2Z = 1 [ZrX]3-
0
 
 
[ZrLX]3-
0
 
 
[ZrL2X]3-
0
 
 
[ZrL3X]3-
0
 
 
[ZrL4X]3-
0
 
 
[ZrL5X]3-
0
 
 
[ZrL6X]3-
0
X+2Z = 2  
 
[ZrX2]3-
0
 
 
[ZrLX2]3-
0
 
 
[ZrL2X2]3-
0
 
 
[ZrL3X2]3-
0
 
 
[ZrL4X2]3-
0
 
 
[ZrL5X2]3-
0
 
 
X+2Z = 3 [ZrXZ]3-
0
 
 
[ZrX3]3-
0
 
 
[ZrLX3]3-
0
 
 
[ZrL2X3]3-
0
 
 
[ZrL3X3]3-
0
 
 
[ZrL4X3]3-
0
 
 
[ZrL5X3]3-
0
X+2Z = 4  
 
[ZrX2Z]3-
0
 
 
[ZrX4]3-
0
 
 
[ZrLX4]3-
0
 
 
[ZrL2X4]3-
0
 
 
[ZrL3X4]3-
0
 
 
[ZrL4X4]3-
0
 
 
X+2Z = 5 [ZrXZ2]3-
0
 
 
[ZrX3Z]3-
0
 
 
[ZrX5]3-
0
 
 
[ZrLX5]3-
0
 
 
[ZrL2X5]3-
0
 
 
[ZrL3X5]3-
0
 
 
[ZrL4X5]3-
0
X+2Z = 6  
 
[ZrX2Z2]3-
0
 
 
[ZrX4Z]3-
0
 
 
[ZrX6]3-
0
 
 
[ZrLX6]3-
0
 
 
[ZrL2X6]3-
0
 
 
[ZrL3X6]3-
0
 
 
X+2Z = 7 [ZrXZ3]3-
0
 
 
[ZrX3Z2]3-
0
 
 
[ZrX5Z]3-
0
 
 
[ZrX7]3-
50%
 
 
[ZrLX7]3-
50%
 
 
[ZrL2X7]3-
0
 
 
[ZrL3X7]3-
0
X+2Z = 8  
 
[ZrX2Z3]3-
0
 
 
[ZrX4Z2]3-
0
 
 
[ZrX6Z]3-
0
 
 
[ZrX8]3-
0
 
 
[ZrLX8]3-
0
 
 
[ZrL2X8]3-
0
 
 
X+2Z = 9 [ZrXZ4]3-
0
 
 
[ZrX3Z3]3-
0
 
 
[ZrX5Z2]3-
0
 
 
[ZrX7Z]3-
0
 
 
[ZrX9]3-
0
 
 
[ZrLX9]3-
0
 
 
[ZrL2X9]3-
0
X+2Z = 10  
 
[ZrX2Z4]3-
0
 
 
[ZrX4Z3]3-
0
 
 
[ZrX6Z2]3-
0
 
 
[ZrX8Z]3-
0
 
 
[ZrX10]3-
0
 
 
[ZrLX10]3-
0
 
 
X+2Z = 11 [ZrXZ5]3-
0
 
 
[ZrX3Z4]3-
0
 
 
[ZrX5Z3]3-
0
 
 
[ZrX7Z2]3-
0
 
 
[ZrX9Z]3-
0
 
 
[ZrX11]3-
0
 
 
[ZrLX11]3-
0
X+2Z = 12  
 
[ZrX2Z5]3-
0
 
 
[ZrX4Z4]3-
0
 
 
[ZrX6Z3]3-
0
 
 
[ZrX8Z2]3-
0
 
 
[ZrX10Z]3-
0
 
 
[ZrX12]3-
0
 
 

MLXZ grid for zirconium (Zr) for Q = -2: [ZrXxLlZz]2-

The number of compounds found is 18.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [ZrL]2-
0
 
 
[ZrL2]2-
0
 
 
[ZrL3]2-
0
 
 
[ZrL4]2-
0
 
 
[ZrL5]2-
0
 
 
[ZrL6]2-
6%
 
 
[ZrL7]2-
0
X+2Z = 1  
 
[ZrLX]2-
0
 
 
[ZrL2X]2-
0
 
 
[ZrL3X]2-
0
 
 
[ZrL4X]2-
0
 
 
[ZrL5X]2-
0
 
 
[ZrL6X]2-
0
 
 
X+2Z = 2 [ZrX2]2-
0
 
 
[ZrLX2]2-
0
 
 
[ZrL2X2]2-
0
 
 
[ZrL3X2]2-
0
 
 
[ZrL4X2]2-
0
 
 
[ZrL5X2]2-
6%
 
 
[ZrL6X2]2-
0
X+2Z = 3  
 
[ZrX3]2-
0
 
 
[ZrLX3]2-
0
 
 
[ZrL2X3]2-
0
 
 
[ZrL3X3]2-
0
 
 
[ZrL4X3]2-
0
 
 
[ZrL5X3]2-
0
 
 
X+2Z = 4 [ZrX2Z]2-
0
 
 
[ZrX4]2-
0
 
 
[ZrLX4]2-
0
 
 
[ZrL2X4]2-
0
 
 
[ZrL3X4]2-
0
 
 
[ZrL4X4]2-
6%
 
 
[ZrL5X4]2-
0
X+2Z = 5  
 
[ZrX3Z]2-
0
 
 
[ZrX5]2-
0
 
 
[ZrLX5]2-
0
 
 
[ZrL2X5]2-
0
 
 
[ZrL3X5]2-
0
 
 
[ZrL4X5]2-
0
 
 
X+2Z = 6 [ZrX2Z2]2-
0
 
 
[ZrX4Z]2-
0
 
 
[ZrX6]2-
61%
 
 
[ZrLX6]2-
6%
 
 
[ZrL2X6]2-
11%
 
 
[ZrL3X6]2-
6%
 
 
[ZrL4X6]2-
0
X+2Z = 7  
 
[ZrX3Z2]2-
0
 
 
[ZrX5Z]2-
0
 
 
[ZrX7]2-
0
 
 
[ZrLX7]2-
0
 
 
[ZrL2X7]2-
0
 
 
[ZrL3X7]2-
0
 
 
X+2Z = 8 [ZrX2Z3]2-
0
 
 
[ZrX4Z2]2-
0
 
 
[ZrX6Z]2-
0
 
 
[ZrX8]2-
0
 
 
[ZrLX8]2-
0
 
 
[ZrL2X8]2-
0
 
 
[ZrL3X8]2-
0
X+2Z = 9  
 
[ZrX3Z3]2-
0
 
 
[ZrX5Z2]2-
0
 
 
[ZrX7Z]2-
0
 
 
[ZrX9]2-
0
 
 
[ZrLX9]2-
0
 
 
[ZrL2X9]2-
0
 
 
X+2Z = 10 [ZrX2Z4]2-
0
 
 
[ZrX4Z3]2-
0
 
 
[ZrX6Z2]2-
0
 
 
[ZrX8Z]2-
0
 
 
[ZrX10]2-
0
 
 
[ZrLX10]2-
0
 
 
[ZrL2X10]2-
0
X+2Z = 11  
 
[ZrX3Z4]2-
0
 
 
[ZrX5Z3]2-
0
 
 
[ZrX7Z2]2-
0
 
 
[ZrX9Z]2-
0
 
 
[ZrX11]2-
0
 
 
[ZrLX11]2-
0
 
 
X+2Z = 12 [ZrX2Z5]2-
0
 
 
[ZrX4Z4]2-
0
 
 
[ZrX6Z3]2-
0
 
 
[ZrX8Z2]2-
0
 
 
[ZrX10Z]2-
0
 
 
[ZrX12]2-
0
 
 
[ZrLX12]2-
0

MLXZ grid for zirconium (Zr) for Q = -1: [ZrXxLlZz]-

The number of compounds found is 18.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0  
 
[ZrL2]-
0
 
 
[ZrL3]-
0
 
 
[ZrL4]-
0
 
 
[ZrL5]-
0
 
 
[ZrL6]-
0
 
 
[ZrL7]-
0
 
 
X+2Z = 1 [ZrLX]-
0
 
 
[ZrL2X]-
0
 
 
[ZrL3X]-
0
 
 
[ZrL4X]-
0
 
 
[ZrL5X]-
0
 
 
[ZrL6X]-
6%
 
 
[ZrL7X]-
0
X+2Z = 2  
 
[ZrLX2]-
0
 
 
[ZrL2X2]-
0
 
 
[ZrL3X2]-
0
 
 
[ZrL4X2]-
0
 
 
[ZrL5X2]-
0
 
 
[ZrL6X2]-
0
 
 
X+2Z = 3 [ZrX3]-
0
 
 
[ZrLX3]-
0
 
 
[ZrL2X3]-
0
 
 
[ZrL3X3]-
0
 
 
[ZrL4X3]-
0
 
 
[ZrL5X3]-
0
 
 
[ZrL6X3]-
0
X+2Z = 4  
 
[ZrX4]-
0
 
 
[ZrLX4]-
0
 
 
[ZrL2X4]-
0
 
 
[ZrL3X4]-
0
 
 
[ZrL4X4]-
0
 
 
[ZrL5X4]-
0
 
 
X+2Z = 5 [ZrX3Z]-
0
 
 
[ZrX5]-
11%
 
 
[ZrLX5]-
50%
 
 
[ZrL2X5]-
11%
 
 
[ZrL3X5]-
6%
 
 
[ZrL4X5]-
11%
 
 
[ZrL5X5]-
6%
X+2Z = 6  
 
[ZrX4Z]-
0
 
 
[ZrX6]-
0
 
 
[ZrLX6]-
0
 
 
[ZrL2X6]-
0
 
 
[ZrL3X6]-
0
 
 
[ZrL4X6]-
0
 
 
X+2Z = 7 [ZrX3Z2]-
0
 
 
[ZrX5Z]-
0
 
 
[ZrX7]-
0
 
 
[ZrLX7]-
0
 
 
[ZrL2X7]-
0
 
 
[ZrL3X7]-
0
 
 
[ZrL4X7]-
0
X+2Z = 8  
 
[ZrX4Z2]-
0
 
 
[ZrX6Z]-
0
 
 
[ZrX8]-
0
 
 
[ZrLX8]-
0
 
 
[ZrL2X8]-
0
 
 
[ZrL3X8]-
0
 
 
X+2Z = 9 [ZrX3Z3]-
0
 
 
[ZrX5Z2]-
0
 
 
[ZrX7Z]-
0
 
 
[ZrX9]-
0
 
 
[ZrLX9]-
0
 
 
[ZrL2X9]-
0
 
 
[ZrL3X9]-
0
X+2Z = 10  
 
[ZrX4Z3]-
0
 
 
[ZrX6Z2]-
0
 
 
[ZrX8Z]-
0
 
 
[ZrX10]-
0
 
 
[ZrLX10]-
0
 
 
[ZrL2X10]-
0
 
 
X+2Z = 11 [ZrX3Z4]-
0
 
 
[ZrX5Z3]-
0
 
 
[ZrX7Z2]-
0
 
 
[ZrX9Z]-
0
 
 
[ZrX11]-
0
 
 
[ZrLX11]-
0
 
 
[ZrL2X11]-
0
X+2Z = 12  
 
[ZrX4Z4]-
0
 
 
[ZrX6Z3]-
0
 
 
[ZrX8Z2]-
0
 
 
[ZrX10Z]-
0
 
 
[ZrX12]-
0
 
 
[ZrLX12]-
0
 
 

MLXZ grid for zirconium (Zr) for Q = 0: [ZrXxLlZz]

The number of compounds found is 345.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [ZrL2]
0
 
 
[ZrL3]
0
 
 
[ZrL4]
0
 
 
[ZrL5]
0
 
 
[ZrL6]
0.3%
 
 
[ZrL7]
0.3%
 
 
[ZrL8]
0
X+2Z = 1  
 
[ZrL2X]
0
 
 
[ZrL3X]
0
 
 
[ZrL4X]
0
 
 
[ZrL5X]
0
 
 
[ZrL6X]
0
 
 
[ZrL7X]
0
 
 
X+2Z = 2 [ZrLX2]
0
 
 
[ZrL2X2]
0
 
 
[ZrL3X2]
0
 
 
[ZrL4X2]
1%
 
 
[ZrL5X2]
2%
 
 
[ZrL6X2]
6%
 
 
[ZrL7X2]
0
X+2Z = 3  
 
[ZrLX3]
0
 
 
[ZrL2X3]
0.3%
 
 
[ZrL3X3]
1%
 
 
[ZrL4X3]
2%
 
 
[ZrL5X3]
4%
 
 
[ZrL6X3]
0
 
 
X+2Z = 4 [ZrX4]
2%
 
 
[ZrLX4]
0.3%
 
 
[ZrL2X4]
12%
 
 
[ZrL3X4]
12%
 
 
[ZrL4X4]
41%
 
 
[ZrL5X4]
16%
 
 
[ZrL6X4]
0
X+2Z = 5  
 
[ZrX5]
0
 
 
[ZrLX5]
0
 
 
[ZrL2X5]
0
 
 
[ZrL3X5]
0
 
 
[ZrL4X5]
0
 
 
[ZrL5X5]
0
 
 
X+2Z = 6 [ZrX4Z]
0
 
 
[ZrX6]
0
 
 
[ZrLX6]
0
 
 
[ZrL2X6]
0
 
 
[ZrL3X6]
0
 
 
[ZrL4X6]
0
 
 
[ZrL5X6]
0
X+2Z = 7  
 
[ZrX5Z]
0
 
 
[ZrX7]
0
 
 
[ZrLX7]
0
 
 
[ZrL2X7]
0
 
 
[ZrL3X7]
0
 
 
[ZrL4X7]
0
 
 
X+2Z = 8 [ZrX4Z2]
0
 
 
[ZrX6Z]
0
 
 
[ZrX8]
0
 
 
[ZrLX8]
0
 
 
[ZrL2X8]
0
 
 
[ZrL3X8]
0
 
 
[ZrL4X8]
0
X+2Z = 9  
 
[ZrX5Z2]
0
 
 
[ZrX7Z]
0
 
 
[ZrX9]
0
 
 
[ZrLX9]
0
 
 
[ZrL2X9]
0
 
 
[ZrL3X9]
0
 
 
X+2Z = 10 [ZrX4Z3]
0
 
 
[ZrX6Z2]
0
 
 
[ZrX8Z]
0
 
 
[ZrX10]
0
 
 
[ZrLX10]
0
 
 
[ZrL2X10]
0
 
 
[ZrL3X10]
0
X+2Z = 11  
 
[ZrX5Z3]
0
 
 
[ZrX7Z2]
0
 
 
[ZrX9Z]
0
 
 
[ZrX11]
0
 
 
[ZrLX11]
0
 
 
[ZrL2X11]
0
 
 
X+2Z = 12 [ZrX4Z4]
0
 
 
[ZrX6Z3]
0
 
 
[ZrX8Z2]
0
 
 
[ZrX10Z]
0
 
 
[ZrX12]
0
 
 
[ZrLX12]
0
 
 
[ZrL2X12]
0

MLXZ grid for zirconium (Zr) for Q = 1: [ZrXxLlZz]+

The number of compounds found is 29.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0  
 
[ZrL3]+
0
 
 
[ZrL4]+
0
 
 
[ZrL5]+
0
 
 
[ZrL6]+
0
 
 
[ZrL7]+
0
 
 
[ZrL8]+
0
 
 
X+2Z = 1 [ZrL2X]+
0
 
 
[ZrL3X]+
0
 
 
[ZrL4X]+
0
 
 
[ZrL5X]+
0
 
 
[ZrL6X]+
0
 
 
[ZrL7X]+
0
 
 
[ZrL8X]+
0
X+2Z = 2  
 
[ZrL2X2]+
0
 
 
[ZrL3X2]+
0
 
 
[ZrL4X2]+
0
 
 
[ZrL5X2]+
0
 
 
[ZrL6X2]+
0
 
 
[ZrL7X2]+
0
 
 
X+2Z = 3 [ZrLX3]+
0
 
 
[ZrL2X3]+
0
 
 
[ZrL3X3]+
7%
 
 
[ZrL4X3]+
14%
 
 
[ZrL5X3]+
52%
 
 
[ZrL6X3]+
28%
 
 
[ZrL7X3]+
0
X+2Z = 4  
 
[ZrLX4]+
0
 
 
[ZrL2X4]+
0
 
 
[ZrL3X4]+
0
 
 
[ZrL4X4]+
0
 
 
[ZrL5X4]+
0
 
 
[ZrL6X4]+
0
 
 
X+2Z = 5 [ZrX5]+
0
 
 
[ZrLX5]+
0
 
 
[ZrL2X5]+
0
 
 
[ZrL3X5]+
0
 
 
[ZrL4X5]+
0
 
 
[ZrL5X5]+
0
 
 
[ZrL6X5]+
0
X+2Z = 6  
 
[ZrX6]+
0
 
 
[ZrLX6]+
0
 
 
[ZrL2X6]+
0
 
 
[ZrL3X6]+
0
 
 
[ZrL4X6]+
0
 
 
[ZrL5X6]+
0
 
 
X+2Z = 7 [ZrX5Z]+
0
 
 
[ZrX7]+
0
 
 
[ZrLX7]+
0
 
 
[ZrL2X7]+
0
 
 
[ZrL3X7]+
0
 
 
[ZrL4X7]+
0
 
 
[ZrL5X7]+
0
X+2Z = 8  
 
[ZrX6Z]+
0
 
 
[ZrX8]+
0
 
 
[ZrLX8]+
0
 
 
[ZrL2X8]+
0
 
 
[ZrL3X8]+
0
 
 
[ZrL4X8]+
0
 
 
X+2Z = 9 [ZrX5Z2]+
0
 
 
[ZrX7Z]+
0
 
 
[ZrX9]+
0
 
 
[ZrLX9]+
0
 
 
[ZrL2X9]+
0
 
 
[ZrL3X9]+
0
 
 
[ZrL4X9]+
0
X+2Z = 10  
 
[ZrX6Z2]+
0
 
 
[ZrX8Z]+
0
 
 
[ZrX10]+
0
 
 
[ZrLX10]+
0
 
 
[ZrL2X10]+
0
 
 
[ZrL3X10]+
0
 
 
X+2Z = 11 [ZrX5Z3]+
0
 
 
[ZrX7Z2]+
0
 
 
[ZrX9Z]+
0
 
 
[ZrX11]+
0
 
 
[ZrLX11]+
0
 
 
[ZrL2X11]+
0
 
 
[ZrL3X11]+
0
X+2Z = 12  
 
[ZrX6Z3]+
0
 
 
[ZrX8Z2]+
0
 
 
[ZrX10Z]+
0
 
 
[ZrX12]+
0
 
 
[ZrLX12]+
0
 
 
[ZrL2X12]+
0
 
 

MLXZ grid for zirconium (Zr) for Q = 2: [ZrXxLlZz]2+

The number of compounds found is 1.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [ZrL3]2+
0
 
 
[ZrL4]2+
0
 
 
[ZrL5]2+
0
 
 
[ZrL6]2+
0
 
 
[ZrL7]2+
0
 
 
[ZrL8]2+
0
 
 
[ZrL9]2+
0
X+2Z = 1  
 
[ZrL3X]2+
0
 
 
[ZrL4X]2+
0
 
 
[ZrL5X]2+
0
 
 
[ZrL6X]2+
0
 
 
[ZrL7X]2+
0
 
 
[ZrL8X]2+
0
 
 
X+2Z = 2 [ZrL2X2]2+
0
 
 
[ZrL3X2]2+
0
 
 
[ZrL4X2]2+
0
 
 
[ZrL5X2]2+
0
 
 
[ZrL6X2]2+
0
 
 
[ZrL7X2]2+
100%
 
 
[ZrL8X2]2+
0
X+2Z = 3  
 
[ZrL2X3]2+
0
 
 
[ZrL3X3]2+
0
 
 
[ZrL4X3]2+
0
 
 
[ZrL5X3]2+
0
 
 
[ZrL6X3]2+
0
 
 
[ZrL7X3]2+
0
 
 
X+2Z = 4 [ZrLX4]2+
0
 
 
[ZrL2X4]2+
0
 
 
[ZrL3X4]2+
0
 
 
[ZrL4X4]2+
0
 
 
[ZrL5X4]2+
0
 
 
[ZrL6X4]2+
0
 
 
[ZrL7X4]2+
0
X+2Z = 5  
 
[ZrLX5]2+
0
 
 
[ZrL2X5]2+
0
 
 
[ZrL3X5]2+
0
 
 
[ZrL4X5]2+
0
 
 
[ZrL5X5]2+
0
 
 
[ZrL6X5]2+
0
 
 
X+2Z = 6 [ZrX6]2+
0
 
 
[ZrLX6]2+
0
 
 
[ZrL2X6]2+
0
 
 
[ZrL3X6]2+
0
 
 
[ZrL4X6]2+
0
 
 
[ZrL5X6]2+
0
 
 
[ZrL6X6]2+
0
X+2Z = 7  
 
[ZrX7]2+
0
 
 
[ZrLX7]2+
0
 
 
[ZrL2X7]2+
0
 
 
[ZrL3X7]2+
0
 
 
[ZrL4X7]2+
0
 
 
[ZrL5X7]2+
0
 
 
X+2Z = 8 [ZrX6Z]2+
0
 
 
[ZrX8]2+
0
 
 
[ZrLX8]2+
0
 
 
[ZrL2X8]2+
0
 
 
[ZrL3X8]2+
0
 
 
[ZrL4X8]2+
0
 
 
[ZrL5X8]2+
0
X+2Z = 9  
 
[ZrX7Z]2+
0
 
 
[ZrX9]2+
0
 
 
[ZrLX9]2+
0
 
 
[ZrL2X9]2+
0
 
 
[ZrL3X9]2+
0
 
 
[ZrL4X9]2+
0
 
 
X+2Z = 10 [ZrX6Z2]2+
0
 
 
[ZrX8Z]2+
0
 
 
[ZrX10]2+
0
 
 
[ZrLX10]2+
0
 
 
[ZrL2X10]2+
0
 
 
[ZrL3X10]2+
0
 
 
[ZrL4X10]2+
0
X+2Z = 11  
 
[ZrX7Z2]2+
0
 
 
[ZrX9Z]2+
0
 
 
[ZrX11]2+
0
 
 
[ZrLX11]2+
0
 
 
[ZrL2X11]2+
0
 
 
[ZrL3X11]2+
0
 
 
X+2Z = 12 [ZrX6Z3]2+
0
 
 
[ZrX8Z2]2+
0
 
 
[ZrX10Z]2+
0
 
 
[ZrX12]2+
0
 
 
[ZrLX12]2+
0
 
 
[ZrL2X12]2+
0
 
 
[ZrL3X12]2+
0

MLXZ grid for zirconium (Zr) for Q = 3: [ZrXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for zirconium (Zr) for Q = 4: [ZrXxLlZz]4+

The number of compounds found is 3.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] classification associated with that cell. A separate table for each value of q± is plotted. Select any entry in the tables where there is shading to see a list of compounds of zirconium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [ZrL4]4+
0
 
 
[ZrL5]4+
0
 
 
[ZrL6]4+
33%
 
 
[ZrL7]4+
0
 
 
[ZrL8]4+
67%
 
 
[ZrL9]4+
0
 
 
[ZrL10]4+
0
X+2Z = 1  
 
[ZrL4X]4+
0
 
 
[ZrL5X]4+
0
 
 
[ZrL6X]4+
0
 
 
[ZrL7X]4+
0
 
 
[ZrL8X]4+
0
 
 
[ZrL9X]4+
0
 
 
X+2Z = 2 [ZrL3X2]4+
0
 
 
[ZrL4X2]4+
0
 
 
[ZrL5X2]4+
0
 
 
[ZrL6X2]4+
0
 
 
[ZrL7X2]4+
0
 
 
[ZrL8X2]4+
0
 
 
[ZrL9X2]4+
0
X+2Z = 3  
 
[ZrL3X3]4+
0
 
 
[ZrL4X3]4+
0
 
 
[ZrL5X3]4+
0
 
 
[ZrL6X3]4+
0
 
 
[ZrL7X3]4+
0
 
 
[ZrL8X3]4+
0
 
 
X+2Z = 4 [ZrL2X4]4+
0
 
 
[ZrL3X4]4+
0
 
 
[ZrL4X4]4+
0
 
 
[ZrL5X4]4+
0
 
 
[ZrL6X4]4+
0
 
 
[ZrL7X4]4+
0
 
 
[ZrL8X4]4+
0
X+2Z = 5  
 
[ZrL2X5]4+
0
 
 
[ZrL3X5]4+
0
 
 
[ZrL4X5]4+
0
 
 
[ZrL5X5]4+
0
 
 
[ZrL6X5]4+
0
 
 
[ZrL7X5]4+
0
 
 
X+2Z = 6 [ZrLX6]4+
0
 
 
[ZrL2X6]4+
0
 
 
[ZrL3X6]4+
0
 
 
[ZrL4X6]4+
0
 
 
[ZrL5X6]4+
0
 
 
[ZrL6X6]4+
0
 
 
[ZrL7X6]4+
0
X+2Z = 7  
 
[ZrLX7]4+
0
 
 
[ZrL2X7]4+
0
 
 
[ZrL3X7]4+
0
 
 
[ZrL4X7]4+
0
 
 
[ZrL5X7]4+
0
 
 
[ZrL6X7]4+
0
 
 
X+2Z = 8 [ZrX8]4+
0
 
 
[ZrLX8]4+
0
 
 
[ZrL2X8]4+
0
 
 
[ZrL3X8]4+
0
 
 
[ZrL4X8]4+
0
 
 
[ZrL5X8]4+
0
 
 
[ZrL6X8]4+
0
X+2Z = 9  
 
[ZrX9]4+
0
 
 
[ZrLX9]4+
0
 
 
[ZrL2X9]4+
0
 
 
[ZrL3X9]4+
0
 
 
[ZrL4X9]4+
0
 
 
[ZrL5X9]4+
0
 
 
X+2Z = 10 [ZrX8Z]4+
0
 
 
[ZrX10]4+
0
 
 
[ZrLX10]4+
0
 
 
[ZrL2X10]4+
0
 
 
[ZrL3X10]4+
0
 
 
[ZrL4X10]4+
0
 
 
[ZrL5X10]4+
0
X+2Z = 11  
 
[ZrX9Z]4+
0
 
 
[ZrX11]4+
0
 
 
[ZrLX11]4+
0
 
 
[ZrL2X11]4+
0
 
 
[ZrL3X11]4+
0
 
 
[ZrL4X11]4+
0
 
 
X+2Z = 12 [ZrX8Z2]4+
0
 
 
[ZrX10Z]4+
0
 
 
[ZrX12]4+
0
 
 
[ZrLX12]4+
0
 
 
[ZrL2X12]4+
0
 
 
[ZrL3X12]4+
0
 
 
[ZrL4X12]4+
0

MLXZ grid for cerium (Ce) for Q = -6: [CeXxLlZz]6-

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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0  
 
[CeZ]6-
0
 
 
[Ce]6-
0
 
 
[CeL]6-
0
 
 
[CeL2]6-
0
 
 
[CeL3]6-
0
 
 
[CeL4]6-
0
 
 
[CeL5]6-
0
 
 
[CeL6]6-
0
 
 
[CeL7]6-
0
 
 
X+2Z = 1 [CeZ2]6-
0
 
 
[CeZ]6-
0
 
 
[CeX]6-
0
 
 
[CeLX]6-
0
 
 
[CeL2X]6-
0
 
 
[CeL3X]6-
0
 
 
[CeL4X]6-
0
 
 
[CeL5X]6-
0
 
 
[CeL6X]6-
0
 
 
[CeL7X]6-
0
X+2Z = 2  
 
[CeZ2]6-
0
 
 
[CeZ]6-
0
 
 
[CeX2]6-
0
 
 
[CeLX2]6-
0
 
 
[CeL2X2]6-
0
 
 
[CeL3X2]6-
0
 
 
[CeL4X2]6-
0
 
 
[CeL5X2]6-
0
 
 
[CeL6X2]6-
0
 
 
X+2Z = 3 [CeZ3]6-
0
 
 
[CeZ2]6-
0
 
 
[CeXZ]6-
0
 
 
[CeX3]6-
0
 
 
[CeLX3]6-
0
 
 
[CeL2X3]6-
0
 
 
[CeL3X3]6-
0
 
 
[CeL4X3]6-
0
 
 
[CeL5X3]6-
0
 
 
[CeL6X3]6-
0
X+2Z = 4  
 
[CeZ3]6-
0
 
 
[CeZ2]6-
0
 
 
[CeX2Z]6-
0
 
 
[CeX4]6-
0
 
 
[CeLX4]6-
0
 
 
[CeL2X4]6-
0
 
 
[CeL3X4]6-
0
 
 
[CeL4X4]6-
0
 
 
[CeL5X4]6-
0
 
 
X+2Z = 5 [CeZ4]6-
0
 
 
[CeZ3]6-
0
 
 
[CeXZ2]6-
0
 
 
[CeX3Z]6-
0
 
 
[CeX5]6-
0
 
 
[CeLX5]6-
0
 
 
[CeL2X5]6-
0
 
 
[CeL3X5]6-
0
 
 
[CeL4X5]6-
0
 
 
[CeL5X5]6-
0
X+2Z = 6  
 
[CeZ4]6-
0
 
 
[CeZ3]6-
0
 
 
[CeX2Z2]6-
0
 
 
[CeX4Z]6-
0
 
 
[CeX6]6-
0
 
 
[CeLX6]6-
0
 
 
[CeL2X6]6-
0
 
 
[CeL3X6]6-
0
 
 
[CeL4X6]6-
0
 
 
X+2Z = 7 [CeZ5]6-
0
 
 
[CeZ4]6-
0
 
 
[CeXZ3]6-
0
 
 
[CeX3Z2]6-
0
 
 
[CeX5Z]6-
0
 
 
[CeX7]6-
0
 
 
[CeLX7]6-
0
 
 
[CeL2X7]6-
0
 
 
[CeL3X7]6-
0
 
 
[CeL4X7]6-
0
X+2Z = 8  
 
[CeZ5]6-
0
 
 
[CeZ4]6-
0
 
 
[CeX2Z3]6-
0
 
 
[CeX4Z2]6-
0
 
 
[CeX6Z]6-
0
 
 
[CeX8]6-
0
 
 
[CeLX8]6-
0
 
 
[CeL2X8]6-
0
 
 
[CeL3X8]6-
0
 
 
X+2Z = 9 [CeZ6]6-
0
 
 
[CeZ5]6-
0
 
 
[CeXZ4]6-
0
 
 
[CeX3Z3]6-
0
 
 
[CeX5Z2]6-
0
 
 
[CeX7Z]6-
0
 
 
[CeX9]6-
0
 
 
[CeLX9]6-
0
 
 
[CeL2X9]6-
0
 
 
[CeL3X9]6-
0
X+2Z = 10  
 
[CeZ6]6-
0
 
 
[CeZ5]6-
0
 
 
[CeX2Z4]6-
0
 
 
[CeX4Z3]6-
0
 
 
[CeX6Z2]6-
0
 
 
[CeX8Z]6-
0
 
 
[CeX10]6-
100%
 
 
[CeLX10]6-
0
 
 
[CeL2X10]6-
0
 
 
X+2Z = 11 [CeZ7]6-
0
 
 
[CeZ6]6-
0
 
 
[CeXZ5]6-
0
 
 
[CeX3Z4]6-
0
 
 
[CeX5Z3]6-
0
 
 
[CeX7Z2]6-
0
 
 
[CeX9Z]6-
0
 
 
[CeX11]6-
0
 
 
[CeLX11]6-
0
 
 
[CeL2X11]6-
0
X+2Z = 12  
 
[CeZ7]6-
0
 
 
[CeZ6]6-
0
 
 
[CeX2Z5]6-
0
 
 
[CeX4Z4]6-
0
 
 
[CeX6Z3]6-
0
 
 
[CeX8Z2]6-
0
 
 
[CeX10Z]6-
0
 
 
[CeX12]6-
0
 
 
[CeLX12]6-
0
 
 

MLXZ grid for cerium (Ce) for Q = -5: [CeXxLlZz]5-

The number of compounds found is 1.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0 [CeZ]5-
0
 
 
[Ce]5-
0
 
 
[CeL]5-
0
 
 
[CeL2]5-
0
 
 
[CeL3]5-
0
 
 
[CeL4]5-
0
 
 
[CeL5]5-
0
 
 
[CeL6]5-
0
 
 
[CeL7]5-
0
 
 
[CeL8]5-
0
X+2Z = 1  
 
[CeZ]5-
0
 
 
[CeX]5-
0
 
 
[CeLX]5-
0
 
 
[CeL2X]5-
0
 
 
[CeL3X]5-
0
 
 
[CeL4X]5-
0
 
 
[CeL5X]5-
0
 
 
[CeL6X]5-
0
 
 
[CeL7X]5-
0
 
 
X+2Z = 2 [CeZ2]5-
0
 
 
[CeZ]5-
0
 
 
[CeX2]5-
0
 
 
[CeLX2]5-
0
 
 
[CeL2X2]5-
0
 
 
[CeL3X2]5-
0
 
 
[CeL4X2]5-
0
 
 
[CeL5X2]5-
0
 
 
[CeL6X2]5-
0
 
 
[CeL7X2]5-
0
X+2Z = 3  
 
[CeZ2]5-
0
 
 
[CeXZ]5-
0
 
 
[CeX3]5-
0
 
 
[CeLX3]5-
0
 
 
[CeL2X3]5-
0
 
 
[CeL3X3]5-
0
 
 
[CeL4X3]5-
0
 
 
[CeL5X3]5-
0
 
 
[CeL6X3]5-
0
 
 
X+2Z = 4 [CeZ3]5-
0
 
 
[CeZ2]5-
0
 
 
[CeX2Z]5-
0
 
 
[CeX4]5-
0
 
 
[CeLX4]5-
0
 
 
[CeL2X4]5-
0
 
 
[CeL3X4]5-
0
 
 
[CeL4X4]5-
0
 
 
[CeL5X4]5-
0
 
 
[CeL6X4]5-
0
X+2Z = 5  
 
[CeZ3]5-
0
 
 
[CeXZ2]5-
0
 
 
[CeX3Z]5-
0
 
 
[CeX5]5-
0
 
 
[CeLX5]5-
0
 
 
[CeL2X5]5-
0
 
 
[CeL3X5]5-
0
 
 
[CeL4X5]5-
0
 
 
[CeL5X5]5-
0
 
 
X+2Z = 6 [CeZ4]5-
0
 
 
[CeZ3]5-
0
 
 
[CeX2Z2]5-
0
 
 
[CeX4Z]5-
0
 
 
[CeX6]5-
0
 
 
[CeLX6]5-
0
 
 
[CeL2X6]5-
0
 
 
[CeL3X6]5-
0
 
 
[CeL4X6]5-
0
 
 
[CeL5X6]5-
0
X+2Z = 7  
 
[CeZ4]5-
0
 
 
[CeXZ3]5-
0
 
 
[CeX3Z2]5-
0
 
 
[CeX5Z]5-
0
 
 
[CeX7]5-
0
 
 
[CeLX7]5-
0
 
 
[CeL2X7]5-
0
 
 
[CeL3X7]5-
0
 
 
[CeL4X7]5-
0
 
 
X+2Z = 8 [CeZ5]5-
0
 
 
[CeZ4]5-
0
 
 
[CeX2Z3]5-
0
 
 
[CeX4Z2]5-
0
 
 
[CeX6Z]5-
0
 
 
[CeX8]5-
100%
 
 
[CeLX8]5-
0
 
 
[CeL2X8]5-
0
 
 
[CeL3X8]5-
0
 
 
[CeL4X8]5-
0
X+2Z = 9  
 
[CeZ5]5-
0
 
 
[CeXZ4]5-
0
 
 
[CeX3Z3]5-
0
 
 
[CeX5Z2]5-
0
 
 
[CeX7Z]5-
0
 
 
[CeX9]5-
0
 
 
[CeLX9]5-
0
 
 
[CeL2X9]5-
0
 
 
[CeL3X9]5-
0
 
 
X+2Z = 10 [CeZ6]5-
0
 
 
[CeZ5]5-
0
 
 
[CeX2Z4]5-
0
 
 
[CeX4Z3]5-
0
 
 
[CeX6Z2]5-
0
 
 
[CeX8Z]5-
0
 
 
[CeX10]5-
0
 
 
[CeLX10]5-
0
 
 
[CeL2X10]5-
0
 
 
[CeL3X10]5-
0
X+2Z = 11  
 
[CeZ6]5-
0
 
 
[CeXZ5]5-
0
 
 
[CeX3Z4]5-
0
 
 
[CeX5Z3]5-
0
 
 
[CeX7Z2]5-
0
 
 
[CeX9Z]5-
0
 
 
[CeX11]5-
0
 
 
[CeLX11]5-
0
 
 
[CeL2X11]5-
0
 
 
X+2Z = 12 [CeZ7]5-
0
 
 
[CeZ6]5-
0
 
 
[CeX2Z5]5-
0
 
 
[CeX4Z4]5-
0
 
 
[CeX6Z3]5-
0
 
 
[CeX8Z2]5-
0
 
 
[CeX10Z]5-
0
 
 
[CeX12]5-
0
 
 
[CeLX12]5-
0
 
 
[CeL2X12]5-
0

MLXZ grid for cerium (Ce) for Q = -4: [CeXxLlZz]4-

The number of compounds found is 1.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0  
 
[Ce]4-
0
 
 
[CeL]4-
0
 
 
[CeL2]4-
0
 
 
[CeL3]4-
0
 
 
[CeL4]4-
0
 
 
[CeL5]4-
0
 
 
[CeL6]4-
0
 
 
[CeL7]4-
0
 
 
[CeL8]4-
0
 
 
X+2Z = 1 [CeZ]4-
0
 
 
[CeX]4-
0
 
 
[CeLX]4-
0
 
 
[CeL2X]4-
0
 
 
[CeL3X]4-
0
 
 
[CeL4X]4-
0
 
 
[CeL5X]4-
0
 
 
[CeL6X]4-
0
 
 
[CeL7X]4-
0
 
 
[CeL8X]4-
0
X+2Z = 2  
 
[CeZ]4-
0
 
 
[CeX2]4-
0
 
 
[CeLX2]4-
0
 
 
[CeL2X2]4-
0
 
 
[CeL3X2]4-
0
 
 
[CeL4X2]4-
0
 
 
[CeL5X2]4-
0
 
 
[CeL6X2]4-
0
 
 
[CeL7X2]4-
0
 
 
X+2Z = 3 [CeZ2]4-
0
 
 
[CeXZ]4-
0
 
 
[CeX3]4-
0
 
 
[CeLX3]4-
0
 
 
[CeL2X3]4-
0
 
 
[CeL3X3]4-
0
 
 
[CeL4X3]4-
0
 
 
[CeL5X3]4-
0
 
 
[CeL6X3]4-
0
 
 
[CeL7X3]4-
0
X+2Z = 4  
 
[CeZ2]4-
0
 
 
[CeX2Z]4-
0
 
 
[CeX4]4-
0
 
 
[CeLX4]4-
0
 
 
[CeL2X4]4-
0
 
 
[CeL3X4]4-
0
 
 
[CeL4X4]4-
0
 
 
[CeL5X4]4-
0
 
 
[CeL6X4]4-
0
 
 
X+2Z = 5 [CeZ3]4-
0
 
 
[CeXZ2]4-
0
 
 
[CeX3Z]4-
0
 
 
[CeX5]4-
0
 
 
[CeLX5]4-
0
 
 
[CeL2X5]4-
0
 
 
[CeL3X5]4-
0
 
 
[CeL4X5]4-
0
 
 
[CeL5X5]4-
0
 
 
[CeL6X5]4-
0
X+2Z = 6  
 
[CeZ3]4-
0
 
 
[CeX2Z2]4-
0
 
 
[CeX4Z]4-
0
 
 
[CeX6]4-
0
 
 
[CeLX6]4-
0
 
 
[CeL2X6]4-
0
 
 
[CeL3X6]4-
0
 
 
[CeL4X6]4-
0
 
 
[CeL5X6]4-
0
 
 
X+2Z = 7 [CeZ4]4-
0
 
 
[CeXZ3]4-
0
 
 
[CeX3Z2]4-
0
 
 
[CeX5Z]4-
0
 
 
[CeX7]4-
0
 
 
[CeLX7]4-
100%
 
 
[CeL2X7]4-
0
 
 
[CeL3X7]4-
0
 
 
[CeL4X7]4-
0
 
 
[CeL5X7]4-
0
X+2Z = 8  
 
[CeZ4]4-
0
 
 
[CeX2Z3]4-
0
 
 
[CeX4Z2]4-
0
 
 
[CeX6Z]4-
0
 
 
[CeX8]4-
0
 
 
[CeLX8]4-
0
 
 
[CeL2X8]4-
0
 
 
[CeL3X8]4-
0
 
 
[CeL4X8]4-
0
 
 
X+2Z = 9 [CeZ5]4-
0
 
 
[CeXZ4]4-
0
 
 
[CeX3Z3]4-
0
 
 
[CeX5Z2]4-
0
 
 
[CeX7Z]4-
0
 
 
[CeX9]4-
0
 
 
[CeLX9]4-
0
 
 
[CeL2X9]4-
0
 
 
[CeL3X9]4-
0
 
 
[CeL4X9]4-
0
X+2Z = 10  
 
[CeZ5]4-
0
 
 
[CeX2Z4]4-
0
 
 
[CeX4Z3]4-
0
 
 
[CeX6Z2]4-
0
 
 
[CeX8Z]4-
0
 
 
[CeX10]4-
0
 
 
[CeLX10]4-
0
 
 
[CeL2X10]4-
0
 
 
[CeL3X10]4-
0
 
 
X+2Z = 11 [CeZ6]4-
0
 
 
[CeXZ5]4-
0
 
 
[CeX3Z4]4-
0
 
 
[CeX5Z3]4-
0
 
 
[CeX7Z2]4-
0
 
 
[CeX9Z]4-
0
 
 
[CeX11]4-
0
 
 
[CeLX11]4-
0
 
 
[CeL2X11]4-
0
 
 
[CeL3X11]4-
0
X+2Z = 12  
 
[CeZ6]4-
0
 
 
[CeX2Z5]4-
0
 
 
[CeX4Z4]4-
0
 
 
[CeX6Z3]4-
0
 
 
[CeX8Z2]4-
0
 
 
[CeX10Z]4-
0
 
 
[CeX12]4-
0
 
 
[CeLX12]4-
0
 
 
[CeL2X12]4-
0
 
 

MLXZ grid for cerium (Ce) for Q = -3: [CeXxLlZz]3-

The number of compounds found is 9.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0 [Ce]3-
0
 
 
[CeL]3-
0
 
 
[CeL2]3-
0
 
 
[CeL3]3-
0
 
 
[CeL4]3-
0
 
 
[CeL5]3-
0
 
 
[CeL6]3-
0
 
 
[CeL7]3-
0
 
 
[CeL8]3-
0
 
 
[CeL9]3-
0
X+2Z = 1  
 
[CeX]3-
0
 
 
[CeLX]3-
0
 
 
[CeL2X]3-
0
 
 
[CeL3X]3-
0
 
 
[CeL4X]3-
0
 
 
[CeL5X]3-
0
 
 
[CeL6X]3-
0
 
 
[CeL7X]3-
0
 
 
[CeL8X]3-
0
 
 
X+2Z = 2 [CeZ]3-
0
 
 
[CeX2]3-
0
 
 
[CeLX2]3-
0
 
 
[CeL2X2]3-
0
 
 
[CeL3X2]3-
0
 
 
[CeL4X2]3-
0
 
 
[CeL5X2]3-
0
 
 
[CeL6X2]3-
0
 
 
[CeL7X2]3-
0
 
 
[CeL8X2]3-
0
X+2Z = 3  
 
[CeXZ]3-
0
 
 
[CeX3]3-
0
 
 
[CeLX3]3-
0
 
 
[CeL2X3]3-
0
 
 
[CeL3X3]3-
0
 
 
[CeL4X3]3-
0
 
 
[CeL5X3]3-
0
 
 
[CeL6X3]3-
0
 
 
[CeL7X3]3-
0
 
 
X+2Z = 4 [CeZ2]3-
0
 
 
[CeX2Z]3-
0
 
 
[CeX4]3-
0
 
 
[CeLX4]3-
0
 
 
[CeL2X4]3-
0
 
 
[CeL3X4]3-
0
 
 
[CeL4X4]3-
0
 
 
[CeL5X4]3-
0
 
 
[CeL6X4]3-
0
 
 
[CeL7X4]3-
0
X+2Z = 5  
 
[CeXZ2]3-
0
 
 
[CeX3Z]3-
0
 
 
[CeX5]3-
0
 
 
[CeLX5]3-
0
 
 
[CeL2X5]3-
0
 
 
[CeL3X5]3-
0
 
 
[CeL4X5]3-
0
 
 
[CeL5X5]3-
0
 
 
[CeL6X5]3-
0
 
 
X+2Z = 6 [CeZ3]3-
0
 
 
[CeX2Z2]3-
0
 
 
[CeX4Z]3-
0
 
 
[CeX6]3-
44%
 
 
[CeLX6]3-
0
 
 
[CeL2X6]3-
11%
 
 
[CeL3X6]3-
11%
 
 
[CeL4X6]3-
11%
 
 
[CeL5X6]3-
0
 
 
[CeL6X6]3-
11%
X+2Z = 7  
 
[CeXZ3]3-
0
 
 
[CeX3Z2]3-
0
 
 
[CeX5Z]3-
0
 
 
[CeX7]3-
0
 
 
[CeLX7]3-
11%
 
 
[CeL2X7]3-
0
 
 
[CeL3X7]3-
0
 
 
[CeL4X7]3-
0
 
 
[CeL5X7]3-
0
 
 
X+2Z = 8 [CeZ4]3-
0
 
 
[CeX2Z3]3-
0
 
 
[CeX4Z2]3-
0
 
 
[CeX6Z]3-
0
 
 
[CeX8]3-
0
 
 
[CeLX8]3-
0
 
 
[CeL2X8]3-
0
 
 
[CeL3X8]3-
0
 
 
[CeL4X8]3-
0
 
 
[CeL5X8]3-
0
X+2Z = 9  
 
[CeXZ4]3-
0
 
 
[CeX3Z3]3-
0
 
 
[CeX5Z2]3-
0
 
 
[CeX7Z]3-
0
 
 
[CeX9]3-
0
 
 
[CeLX9]3-
0
 
 
[CeL2X9]3-
0
 
 
[CeL3X9]3-
0
 
 
[CeL4X9]3-
0
 
 
X+2Z = 10 [CeZ5]3-
0
 
 
[CeX2Z4]3-
0
 
 
[CeX4Z3]3-
0
 
 
[CeX6Z2]3-
0
 
 
[CeX8Z]3-
0
 
 
[CeX10]3-
0
 
 
[CeLX10]3-
0
 
 
[CeL2X10]3-
0
 
 
[CeL3X10]3-
0
 
 
[CeL4X10]3-
0
X+2Z = 11  
 
[CeXZ5]3-
0
 
 
[CeX3Z4]3-
0
 
 
[CeX5Z3]3-
0
 
 
[CeX7Z2]3-
0
 
 
[CeX9Z]3-
0
 
 
[CeX11]3-
0
 
 
[CeLX11]3-
0
 
 
[CeL2X11]3-
0
 
 
[CeL3X11]3-
0
 
 
X+2Z = 12 [CeZ6]3-
0
 
 
[CeX2Z5]3-
0
 
 
[CeX4Z4]3-
0
 
 
[CeX6Z3]3-
0
 
 
[CeX8Z2]3-
0
 
 
[CeX10Z]3-
0
 
 
[CeX12]3-
0
 
 
[CeLX12]3-
0
 
 
[CeL2X12]3-
0
 
 
[CeL3X12]3-
0

MLXZ grid for cerium (Ce) for Q = -2: [CeXxLlZz]2-

The number of compounds found is 10.

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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0  
 
[CeL]2-
0
 
 
[CeL2]2-
0
 
 
[CeL3]2-
0
 
 
[CeL4]2-
0
 
 
[CeL5]2-
0
 
 
[CeL6]2-
0
 
 
[CeL7]2-
0
 
 
[CeL8]2-
0
 
 
[CeL9]2-
0
 
 
X+2Z = 1 [CeX]2-
0
 
 
[CeLX]2-
0
 
 
[CeL2X]2-
0
 
 
[CeL3X]2-
0
 
 
[CeL4X]2-
0
 
 
[CeL5X]2-
0
 
 
[CeL6X]2-
0
 
 
[CeL7X]2-
0
 
 
[CeL8X]2-
0
 
 
[CeL9X]2-
0
X+2Z = 2  
 
[CeX2]2-
0
 
 
[CeLX2]2-
0
 
 
[CeL2X2]2-
0
 
 
[CeL3X2]2-
0
 
 
[CeL4X2]2-
0
 
 
[CeL5X2]2-
0
 
 
[CeL6X2]2-
0
 
 
[CeL7X2]2-
0
 
 
[CeL8X2]2-
0
 
 
X+2Z = 3 [CeXZ]2-
0
 
 
[CeX3]2-
0
 
 
[CeLX3]2-
0
 
 
[CeL2X3]2-
0
 
 
[CeL3X3]2-
0
 
 
[CeL4X3]2-
0
 
 
[CeL5X3]2-
0
 
 
[CeL6X3]2-
0
 
 
[CeL7X3]2-
0
 
 
[CeL8X3]2-
0
X+2Z = 4  
 
[CeX2Z]2-
0
 
 
[CeX4]2-
0
 
 
[CeLX4]2-
0
 
 
[CeL2X4]2-
0
 
 
[CeL3X4]2-
0
 
 
[CeL4X4]2-
0
 
 
[CeL5X4]2-
0
 
 
[CeL6X4]2-
0
 
 
[CeL7X4]2-
0
 
 
X+2Z = 5 [CeXZ2]2-
0
 
 
[CeX3Z]2-
0
 
 
[CeX5]2-
0
 
 
[CeLX5]2-
10%
 
 
[CeL2X5]2-
0
 
 
[CeL3X5]2-
0
 
 
[CeL4X5]2-
10%
 
 
[CeL5X5]2-
10%
 
 
[CeL6X5]2-
0
 
 
[CeL7X5]2-
10%
X+2Z = 6  
 
[CeX2Z2]2-
0
 
 
[CeX4Z]2-
0
 
 
[CeX6]2-
20%
 
 
[CeLX6]2-
0
 
 
[CeL2X6]2-
10%
 
 
[CeL3X6]2-
10%
 
 
[CeL4X6]2-
0
 
 
[CeL5X6]2-
10%
 
 
[CeL6X6]2-
10%
 
 
X+2Z = 7 [CeXZ3]2-
0
 
 
[CeX3Z2]2-
0
 
 
[CeX5Z]2-
0
 
 
[CeX7]2-
0
 
 
[CeLX7]2-
0
 
 
[CeL2X7]2-
0
 
 
[CeL3X7]2-
0
 
 
[CeL4X7]2-
0
 
 
[CeL5X7]2-
0
 
 
[CeL6X7]2-
0
X+2Z = 8  
 
[CeX2Z3]2-
0
 
 
[CeX4Z2]2-
0
 
 
[CeX6Z]2-
0
 
 
[CeX8]2-
0
 
 
[CeLX8]2-
0
 
 
[CeL2X8]2-
0
 
 
[CeL3X8]2-
0
 
 
[CeL4X8]2-
0
 
 
[CeL5X8]2-
0
 
 
X+2Z = 9 [CeXZ4]2-
0
 
 
[CeX3Z3]2-
0
 
 
[CeX5Z2]2-
0
 
 
[CeX7Z]2-
0
 
 
[CeX9]2-
0
 
 
[CeLX9]2-
0
 
 
[CeL2X9]2-
0
 
 
[CeL3X9]2-
0
 
 
[CeL4X9]2-
0
 
 
[CeL5X9]2-
0
X+2Z = 10  
 
[CeX2Z4]2-
0
 
 
[CeX4Z3]2-
0
 
 
[CeX6Z2]2-
0
 
 
[CeX8Z]2-
0
 
 
[CeX10]2-
0
 
 
[CeLX10]2-
0
 
 
[CeL2X10]2-
0
 
 
[CeL3X10]2-
0
 
 
[CeL4X10]2-
0
 
 
X+2Z = 11 [CeXZ5]2-
0
 
 
[CeX3Z4]2-
0
 
 
[CeX5Z3]2-
0
 
 
[CeX7Z2]2-
0
 
 
[CeX9Z]2-
0
 
 
[CeX11]2-
0
 
 
[CeLX11]2-
0
 
 
[CeL2X11]2-
0
 
 
[CeL3X11]2-
0
 
 
[CeL4X11]2-
0
X+2Z = 12  
 
[CeX2Z5]2-
0
 
 
[CeX4Z4]2-
0
 
 
[CeX6Z3]2-
0
 
 
[CeX8Z2]2-
0
 
 
[CeX10Z]2-
0
 
 
[CeX12]2-
0
 
 
[CeLX12]2-
0
 
 
[CeL2X12]2-
0
 
 
[CeL3X12]2-
0
 
 

MLXZ grid for cerium (Ce) for Q = -1: [CeXxLlZz]-

The number of compounds found is 16.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0 [CeL]-
0
 
 
[CeL2]-
0
 
 
[CeL3]-
0
 
 
[CeL4]-
0
 
 
[CeL5]-
0
 
 
[CeL6]-
0
 
 
[CeL7]-
0
 
 
[CeL8]-
0
 
 
[CeL9]-
0
 
 
[CeL10]-
0
X+2Z = 1  
 
[CeLX]-
0
 
 
[CeL2X]-
0
 
 
[CeL3X]-
0
 
 
[CeL4X]-
0
 
 
[CeL5X]-
0
 
 
[CeL6X]-
0
 
 
[CeL7X]-
0
 
 
[CeL8X]-
0
 
 
[CeL9X]-
0
 
 
X+2Z = 2 [CeX2]-
0
 
 
[CeLX2]-
0
 
 
[CeL2X2]-
0
 
 
[CeL3X2]-
0
 
 
[CeL4X2]-
0
 
 
[CeL5X2]-
0
 
 
[CeL6X2]-
0
 
 
[CeL7X2]-
0
 
 
[CeL8X2]-
0
 
 
[CeL9X2]-
0
X+2Z = 3  
 
[CeX3]-
0
 
 
[CeLX3]-
0
 
 
[CeL2X3]-
0
 
 
[CeL3X3]-
0
 
 
[CeL4X3]-
0
 
 
[CeL5X3]-
0
 
 
[CeL6X3]-
25%
 
 
[CeL7X3]-
0
 
 
[CeL8X3]-
0
 
 
X+2Z = 4 [CeX2Z]-
0
 
 
[CeX4]-
0
 
 
[CeLX4]-
0
 
 
[CeL2X4]-
0
 
 
[CeL3X4]-
6%
 
 
[CeL4X4]-
25%
 
 
[CeL5X4]-
0
 
 
[CeL6X4]-
13%
 
 
[CeL7X4]-
6%
 
 
[CeL8X4]-
0
X+2Z = 5  
 
[CeX3Z]-
0
 
 
[CeX5]-
0
 
 
[CeLX5]-
6%
 
 
[CeL2X5]-
0
 
 
[CeL3X5]-
6%
 
 
[CeL4X5]-
6%
 
 
[CeL5X5]-
0
 
 
[CeL6X5]-
6%
 
 
[CeL7X5]-
0
 
 
X+2Z = 6 [CeX2Z2]-
0
 
 
[CeX4Z]-
0
 
 
[CeX6]-
0
 
 
[CeLX6]-
0
 
 
[CeL2X6]-
0
 
 
[CeL3X6]-
0
 
 
[CeL4X6]-
0
 
 
[CeL5X6]-
0
 
 
[CeL6X6]-
0
 
 
[CeL7X6]-
0
X+2Z = 7  
 
[CeX3Z2]-
0
 
 
[CeX5Z]-
0
 
 
[CeX7]-
0
 
 
[CeLX7]-
0
 
 
[CeL2X7]-
0
 
 
[CeL3X7]-
0
 
 
[CeL4X7]-
0
 
 
[CeL5X7]-
0
 
 
[CeL6X7]-
0
 
 
X+2Z = 8 [CeX2Z3]-
0
 
 
[CeX4Z2]-
0
 
 
[CeX6Z]-
0
 
 
[CeX8]-
0
 
 
[CeLX8]-
0
 
 
[CeL2X8]-
0
 
 
[CeL3X8]-
0
 
 
[CeL4X8]-
0
 
 
[CeL5X8]-
0
 
 
[CeL6X8]-
0
X+2Z = 9  
 
[CeX3Z3]-
0
 
 
[CeX5Z2]-
0
 
 
[CeX7Z]-
0
 
 
[CeX9]-
0
 
 
[CeLX9]-
0
 
 
[CeL2X9]-
0
 
 
[CeL3X9]-
0
 
 
[CeL4X9]-
0
 
 
[CeL5X9]-
0
 
 
X+2Z = 10 [CeX2Z4]-
0
 
 
[CeX4Z3]-
0
 
 
[CeX6Z2]-
0
 
 
[CeX8Z]-
0
 
 
[CeX10]-
0
 
 
[CeLX10]-
0
 
 
[CeL2X10]-
0
 
 
[CeL3X10]-
0
 
 
[CeL4X10]-
0
 
 
[CeL5X10]-
0
X+2Z = 11  
 
[CeX3Z4]-
0
 
 
[CeX5Z3]-
0
 
 
[CeX7Z2]-
0
 
 
[CeX9Z]-
0
 
 
[CeX11]-
0
 
 
[CeLX11]-
0
 
 
[CeL2X11]-
0
 
 
[CeL3X11]-
0
 
 
[CeL4X11]-
0
 
 
X+2Z = 12 [CeX2Z5]-
0
 
 
[CeX4Z4]-
0
 
 
[CeX6Z3]-
0
 
 
[CeX8Z2]-
0
 
 
[CeX10Z]-
0
 
 
[CeX12]-
0
 
 
[CeLX12]-
0
 
 
[CeL2X12]-
0
 
 
[CeL3X12]-
0
 
 
[CeL4X12]-
0

MLXZ grid for cerium (Ce) for Q = 0: [CeXxLlZz]

The number of compounds found is 144.

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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0  
 
[CeL2]
0
 
 
[CeL3]
0
 
 
[CeL4]
0
 
 
[CeL5]
0
 
 
[CeL6]
0
 
 
[CeL7]
0
 
 
[CeL8]
0
 
 
[CeL9]
0
 
 
[CeL10]
0
 
 
X+2Z = 1 [CeLX]
0
 
 
[CeL2X]
0
 
 
[CeL3X]
0
 
 
[CeL4X]
0
 
 
[CeL5X]
0
 
 
[CeL6X]
0
 
 
[CeL7X]
0
 
 
[CeL8X]
0
 
 
[CeL9X]
0
 
 
[CeL10X]
0
X+2Z = 2  
 
[CeLX2]
0
 
 
[CeL2X2]
0
 
 
[CeL3X2]
0
 
 
[CeL4X2]
0
 
 
[CeL5X2]
0
 
 
[CeL6X2]
1%
 
 
[CeL7X2]
0
 
 
[CeL8X2]
0
 
 
[CeL9X2]
0
 
 
X+2Z = 3 [CeX3]
1%
 
 
[CeLX3]
1%
 
 
[CeL2X3]
1%
 
 
[CeL3X3]
10%
 
 
[CeL4X3]
7%
 
 
[CeL5X3]
19%
 
 
[CeL6X3]
19%
 
 
[CeL7X3]
6%
 
 
[CeL8X3]
1%
 
 
[CeL9X3]
0
X+2Z = 4  
 
[CeX4]
0
 
 
[CeLX4]
0
 
 
[CeL2X4]
4%
 
 
[CeL3X4]
5%
 
 
[CeL4X4]
14%
 
 
[CeL5X4]
7%
 
 
[CeL6X4]
4%
 
 
[CeL7X4]
0
 
 
[CeL8X4]
0
 
 
X+2Z = 5 [CeX3Z]
0
 
 
[CeX5]
0
 
 
[CeLX5]
0
 
 
[CeL2X5]
0
 
 
[CeL3X5]
0
 
 
[CeL4X5]
0
 
 
[CeL5X5]
0
 
 
[CeL6X5]
0
 
 
[CeL7X5]
0
 
 
[CeL8X5]
0
X+2Z = 6  
 
[CeX4Z]
0
 
 
[CeX6]
0
 
 
[CeLX6]
0
 
 
[CeL2X6]
0
 
 
[CeL3X6]
0
 
 
[CeL4X6]
0
 
 
[CeL5X6]
0
 
 
[CeL6X6]
0
 
 
[CeL7X6]
0
 
 
X+2Z = 7 [CeX3Z2]
0
 
 
[CeX5Z]
0
 
 
[CeX7]
0
 
 
[CeLX7]
0
 
 
[CeL2X7]
0
 
 
[CeL3X7]
0
 
 
[CeL4X7]
0
 
 
[CeL5X7]
0
 
 
[CeL6X7]
0
 
 
[CeL7X7]
0
X+2Z = 8  
 
[CeX4Z2]
0
 
 
[CeX6Z]
0
 
 
[CeX8]
0
 
 
[CeLX8]
0
 
 
[CeL2X8]
0
 
 
[CeL3X8]
0
 
 
[CeL4X8]
0
 
 
[CeL5X8]
0
 
 
[CeL6X8]
0
 
 
X+2Z = 9 [CeX3Z3]
0
 
 
[CeX5Z2]
0
 
 
[CeX7Z]
0
 
 
[CeX9]
0
 
 
[CeLX9]
0
 
 
[CeL2X9]
0
 
 
[CeL3X9]
0
 
 
[CeL4X9]
0
 
 
[CeL5X9]
0
 
 
[CeL6X9]
0
X+2Z = 10  
 
[CeX4Z3]
0
 
 
[CeX6Z2]
0
 
 
[CeX8Z]
0
 
 
[CeX10]
0
 
 
[CeLX10]
0
 
 
[CeL2X10]
0
 
 
[CeL3X10]
0
 
 
[CeL4X10]
0
 
 
[CeL5X10]
0
 
 
X+2Z = 11 [CeX3Z4]
0
 
 
[CeX5Z3]
0
 
 
[CeX7Z2]
0
 
 
[CeX9Z]
0
 
 
[CeX11]
0
 
 
[CeLX11]
0
 
 
[CeL2X11]
0
 
 
[CeL3X11]
0
 
 
[CeL4X11]
0
 
 
[CeL5X11]
0
X+2Z = 12  
 
[CeX4Z4]
0
 
 
[CeX6Z3]
0
 
 
[CeX8Z2]
0
 
 
[CeX10Z]
0
 
 
[CeX12]
0
 
 
[CeLX12]
0
 
 
[CeL2X12]
0
 
 
[CeL3X12]
0
 
 
[CeL4X12]
0
 
 

MLXZ grid for cerium (Ce) for Q = 1: [CeXxLlZz]+

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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0 [CeL2]+
0
 
 
[CeL3]+
0
 
 
[CeL4]+
0
 
 
[CeL5]+
0
 
 
[CeL6]+
0
 
 
[CeL7]+
0
 
 
[CeL8]+
0
 
 
[CeL9]+
0
 
 
[CeL10]+
0
 
 
[CeL11]+
0
X+2Z = 1  
 
[CeL2X]+
0
 
 
[CeL3X]+
0
 
 
[CeL4X]+
0
 
 
[CeL5X]+
0
 
 
[CeL6X]+
0
 
 
[CeL7X]+
0
 
 
[CeL8X]+
0
 
 
[CeL9X]+
0
 
 
[CeL10X]+
0
 
 
X+2Z = 2 [CeLX2]+
0
 
 
[CeL2X2]+
0
 
 
[CeL3X2]+
0
 
 
[CeL4X2]+
6%
 
 
[CeL5X2]+
11%
 
 
[CeL6X2]+
39%
 
 
[CeL7X2]+
22%
 
 
[CeL8X2]+
22%
 
 
[CeL9X2]+
0
 
 
[CeL10X2]+
0
X+2Z = 3  
 
[CeLX3]+
0
 
 
[CeL2X3]+
0
 
 
[CeL3X3]+
0
 
 
[CeL4X3]+
0
 
 
[CeL5X3]+
0
 
 
[CeL6X3]+
0
 
 
[CeL7X3]+
0
 
 
[CeL8X3]+
0
 
 
[CeL9X3]+
0
 
 
X+2Z = 4 [CeX4]+
0
 
 
[CeLX4]+
0
 
 
[CeL2X4]+
0
 
 
[CeL3X4]+
0
 
 
[CeL4X4]+
0
 
 
[CeL5X4]+
0
 
 
[CeL6X4]+
0
 
 
[CeL7X4]+
0
 
 
[CeL8X4]+
0
 
 
[CeL9X4]+
0
X+2Z = 5  
 
[CeX5]+
0
 
 
[CeLX5]+
0
 
 
[CeL2X5]+
0
 
 
[CeL3X5]+
0
 
 
[CeL4X5]+
0
 
 
[CeL5X5]+
0
 
 
[CeL6X5]+
0
 
 
[CeL7X5]+
0
 
 
[CeL8X5]+
0
 
 
X+2Z = 6 [CeX4Z]+
0
 
 
[CeX6]+
0
 
 
[CeLX6]+
0
 
 
[CeL2X6]+
0
 
 
[CeL3X6]+
0
 
 
[CeL4X6]+
0
 
 
[CeL5X6]+
0
 
 
[CeL6X6]+
0
 
 
[CeL7X6]+
0
 
 
[CeL8X6]+
0
X+2Z = 7  
 
[CeX5Z]+
0
 
 
[CeX7]+
0
 
 
[CeLX7]+
0
 
 
[CeL2X7]+
0
 
 
[CeL3X7]+
0
 
 
[CeL4X7]+
0
 
 
[CeL5X7]+
0
 
 
[CeL6X7]+
0
 
 
[CeL7X7]+
0
 
 
X+2Z = 8 [CeX4Z2]+
0
 
 
[CeX6Z]+
0
 
 
[CeX8]+
0
 
 
[CeLX8]+
0
 
 
[CeL2X8]+
0
 
 
[CeL3X8]+
0
 
 
[CeL4X8]+
0
 
 
[CeL5X8]+
0
 
 
[CeL6X8]+
0
 
 
[CeL7X8]+
0
X+2Z = 9  
 
[CeX5Z2]+
0
 
 
[CeX7Z]+
0
 
 
[CeX9]+
0
 
 
[CeLX9]+
0
 
 
[CeL2X9]+
0
 
 
[CeL3X9]+
0
 
 
[CeL4X9]+
0
 
 
[CeL5X9]+
0
 
 
[CeL6X9]+
0
 
 
X+2Z = 10 [CeX4Z3]+
0
 
 
[CeX6Z2]+
0
 
 
[CeX8Z]+
0
 
 
[CeX10]+
0
 
 
[CeLX10]+
0
 
 
[CeL2X10]+
0
 
 
[CeL3X10]+
0
 
 
[CeL4X10]+
0
 
 
[CeL5X10]+
0
 
 
[CeL6X10]+
0
X+2Z = 11  
 
[CeX5Z3]+
0
 
 
[CeX7Z2]+
0
 
 
[CeX9Z]+
0
 
 
[CeX11]+
0
 
 
[CeLX11]+
0
 
 
[CeL2X11]+
0
 
 
[CeL3X11]+
0
 
 
[CeL4X11]+
0
 
 
[CeL5X11]+
0
 
 
X+2Z = 12 [CeX4Z4]+
0
 
 
[CeX6Z3]+
0
 
 
[CeX8Z2]+
0
 
 
[CeX10Z]+
0
 
 
[CeX12]+
0
 
 
[CeLX12]+
0
 
 
[CeL2X12]+
0
 
 
[CeL3X12]+
0
 
 
[CeL4X12]+
0
 
 
[CeL5X12]+
0

MLXZ grid for cerium (Ce) for Q = 2: [CeXxLlZz]2+

The number of compounds found is 6.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0  
 
[CeL3]2+
0
 
 
[CeL4]2+
0
 
 
[CeL5]2+
0
 
 
[CeL6]2+
0
 
 
[CeL7]2+
0
 
 
[CeL8]2+
0
 
 
[CeL9]2+
0
 
 
[CeL10]2+
0
 
 
[CeL11]2+
0
 
 
X+2Z = 1 [CeL2X]2+
0
 
 
[CeL3X]2+
0
 
 
[CeL4X]2+
0
 
 
[CeL5X]2+
0
 
 
[CeL6X]2+
0
 
 
[CeL7X]2+
17%
 
 
[CeL8X]2+
67%
 
 
[CeL9X]2+
17%
 
 
[CeL10X]2+
0
 
 
[CeL11X]2+
0
X+2Z = 2  
 
[CeL2X2]2+
0
 
 
[CeL3X2]2+
0
 
 
[CeL4X2]2+
0
 
 
[CeL5X2]2+
0
 
 
[CeL6X2]2+
0
 
 
[CeL7X2]2+
0
 
 
[CeL8X2]2+
0
 
 
[CeL9X2]2+
0
 
 
[CeL10X2]2+
0
 
 
X+2Z = 3 [CeLX3]2+
0
 
 
[CeL2X3]2+
0
 
 
[CeL3X3]2+
0
 
 
[CeL4X3]2+
0
 
 
[CeL5X3]2+
0
 
 
[CeL6X3]2+
0
 
 
[CeL7X3]2+
0
 
 
[CeL8X3]2+
0
 
 
[CeL9X3]2+
0
 
 
[CeL10X3]2+
0
X+2Z = 4  
 
[CeLX4]2+
0
 
 
[CeL2X4]2+
0
 
 
[CeL3X4]2+
0
 
 
[CeL4X4]2+
0
 
 
[CeL5X4]2+
0
 
 
[CeL6X4]2+
0
 
 
[CeL7X4]2+
0
 
 
[CeL8X4]2+
0
 
 
[CeL9X4]2+
0
 
 
X+2Z = 5 [CeX5]2+
0
 
 
[CeLX5]2+
0
 
 
[CeL2X5]2+
0
 
 
[CeL3X5]2+
0
 
 
[CeL4X5]2+
0
 
 
[CeL5X5]2+
0
 
 
[CeL6X5]2+
0
 
 
[CeL7X5]2+
0
 
 
[CeL8X5]2+
0
 
 
[CeL9X5]2+
0
X+2Z = 6  
 
[CeX6]2+
0
 
 
[CeLX6]2+
0
 
 
[CeL2X6]2+
0
 
 
[CeL3X6]2+
0
 
 
[CeL4X6]2+
0
 
 
[CeL5X6]2+
0
 
 
[CeL6X6]2+
0
 
 
[CeL7X6]2+
0
 
 
[CeL8X6]2+
0
 
 
X+2Z = 7 [CeX5Z]2+
0
 
 
[CeX7]2+
0
 
 
[CeLX7]2+
0
 
 
[CeL2X7]2+
0
 
 
[CeL3X7]2+
0
 
 
[CeL4X7]2+
0
 
 
[CeL5X7]2+
0
 
 
[CeL6X7]2+
0
 
 
[CeL7X7]2+
0
 
 
[CeL8X7]2+
0
X+2Z = 8  
 
[CeX6Z]2+
0
 
 
[CeX8]2+
0
 
 
[CeLX8]2+
0
 
 
[CeL2X8]2+
0
 
 
[CeL3X8]2+
0
 
 
[CeL4X8]2+
0
 
 
[CeL5X8]2+
0
 
 
[CeL6X8]2+
0
 
 
[CeL7X8]2+
0
 
 
X+2Z = 9 [CeX5Z2]2+
0
 
 
[CeX7Z]2+
0
 
 
[CeX9]2+
0
 
 
[CeLX9]2+
0
 
 
[CeL2X9]2+
0
 
 
[CeL3X9]2+
0
 
 
[CeL4X9]2+
0
 
 
[CeL5X9]2+
0
 
 
[CeL6X9]2+
0
 
 
[CeL7X9]2+
0
X+2Z = 10  
 
[CeX6Z2]2+
0
 
 
[CeX8Z]2+
0
 
 
[CeX10]2+
0
 
 
[CeLX10]2+
0
 
 
[CeL2X10]2+
0
 
 
[CeL3X10]2+
0
 
 
[CeL4X10]2+
0
 
 
[CeL5X10]2+
0
 
 
[CeL6X10]2+
0
 
 
X+2Z = 11 [CeX5Z3]2+
0
 
 
[CeX7Z2]2+
0
 
 
[CeX9Z]2+
0
 
 
[CeX11]2+
0
 
 
[CeLX11]2+
0
 
 
[CeL2X11]2+
0
 
 
[CeL3X11]2+
0
 
 
[CeL4X11]2+
0
 
 
[CeL5X11]2+
0
 
 
[CeL6X11]2+
0
X+2Z = 12  
 
[CeX6Z3]2+
0
 
 
[CeX8Z2]2+
0
 
 
[CeX10Z]2+
0
 
 
[CeX12]2+
0
 
 
[CeLX12]2+
0
 
 
[CeL2X12]2+
0
 
 
[CeL3X12]2+
0
 
 
[CeL4X12]2+
0
 
 
[CeL5X12]2+
0
 
 

MLXZ grid for cerium (Ce) for Q = 3: [CeXxLlZz]3+

The number of compounds found is 10.

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 cerium with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
X+2Z = 0 [CeL3]3+
0
 
 
[CeL4]3+
0
 
 
[CeL5]3+
0
 
 
[CeL6]3+
0
 
 
[CeL7]3+
0
 
 
[CeL8]3+
50%
 
 
[CeL9]3+
40%
 
 
[CeL10]3+
10%
 
 
[CeL11]3+
0
 
 
[CeL12]3+
0
X+2Z = 1  
 
[CeL3X]3+
0
 
 
[CeL4X]3+
0
 
 
[CeL5X]3+
0
 
 
[CeL6X]3+
0
 
 
[CeL7X]3+
0
 
 
[CeL8X]3+
0
 
 
[CeL9X]3+
0
 
 
[CeL10X]3+
0
 
 
[CeL11X]3+
0
 
 
X+2Z = 2 [CeL2X2]3+
0
 
 
[CeL3X2]3+
0
 
 
[CeL4X2]3+
0
 
 
[CeL5X2]3+
0
 
 
[CeL6X2]3+
0
 
 
[CeL7X2]3+
0
 
 
[CeL8X2]3+
0
 
 
[CeL9X2]3+
0
 
 
[CeL10X2]3+
0
 
 
[CeL11X2]3+
0
X+2Z = 3  
 
[CeL2X3]3+
0
 
 
[CeL3X3]3+
0
 
 
[CeL4X3]3+
0
 
 
[CeL5X3]3+
0
 
 
[CeL6X3]3+
0
 
 
[CeL7X3]3+
0
 
 
[CeL8X3]3+
0
 
 
[CeL9X3]3+
0
 
 
[CeL10X3]3+
0
 
 
X+2Z = 4 [CeLX4]3+
0
 
 
[CeL2X4]3+
0
 
 
[CeL3X4]3+
0
 
 
[CeL4X4]3+
0
 
 
[CeL5X4]3+
0
 
 
[CeL6X4]3+
0
 
 
[CeL7X4]3+
0
 
 
[CeL8X4]3+
0
 
 
[CeL9X4]3+
0
 
 
[CeL10X4]3+
0
X+2Z = 5  
 
[CeLX5]3+
0
 
 
[CeL2X5]3+
0
 
 
[CeL3X5]3+
0
 
 
[CeL4X5]3+
0
 
 
[CeL5X5]3+
0
 
 
[CeL6X5]3+
0
 
 
[CeL7X5]3+
0
 
 
[CeL8X5]3+
0
 
 
[CeL9X5]3+
0
 
 
X+2Z = 6 [CeX6]3+
0
 
 
[CeLX6]3+
0
 
 
[CeL2X6]3+
0
 
 
[CeL3X6]3+
0
 
 
[CeL4X6]3+
0
 
 
[CeL5X6]3+
0
 
 
[CeL6X6]3+
0
 
 
[CeL7X6]3+
0
 
 
[CeL8X6]3+
0
 
 
[CeL9X6]3+
0
X+2Z = 7  
 
[CeX7]3+
0
 
 
[CeLX7]3+
0
 
 
[CeL2X7]3+
0
 
 
[CeL3X7]3+
0
 
 
[CeL4X7]3+
0
 
 
[CeL5X7]3+
0
 
 
[CeL6X7]3+
0
 
 
[CeL7X7]3+
0
 
 
[CeL8X7]3+
0
 
 
X+2Z = 8 [CeX6Z]3+
0
 
 
[CeX8]3+
0
 
 
[CeLX8]3+
0
 
 
[CeL2X8]3+
0
 
 
[CeL3X8]3+
0
 
 
[CeL4X8]3+
0
 
 
[CeL5X8]3+
0
 
 
[CeL6X8]3+
0
 
 
[CeL7X8]3+
0
 
 
[CeL8X8]3+
0
X+2Z = 9  
 
[CeX7Z]3+
0
 
 
[CeX9]3+
0
 
 
[CeLX9]3+
0
 
 
[CeL2X9]3+
0
 
 
[CeL3X9]3+
0
 
 
[CeL4X9]3+
0
 
 
[CeL5X9]3+
0
 
 
[CeL6X9]3+
0
 
 
[CeL7X9]3+
0
 
 
X+2Z = 10 [CeX6Z2]3+
0
 
 
[CeX8Z]3+
0
 
 
[CeX10]3+
0
 
 
[CeLX10]3+
0
 
 
[CeL2X10]3+
0
 
 
[CeL3X10]3+
0
 
 
[CeL4X10]3+
0
 
 
[CeL5X10]3+
0
 
 
[CeL6X10]3+
0
 
 
[CeL7X10]3+
0
X+2Z = 11  
 
[CeX7Z2]3+
0
 
 
[CeX9Z]3+
0
 
 
[CeX11]3+
0
 
 
[CeLX11]3+
0
 
 
[CeL2X11]3+
0
 
 
[CeL3X11]3+
0
 
 
[CeL4X11]3+
0
 
 
[CeL5X11]3+
0
 
 
[CeL6X11]3+
0
 
 
X+2Z = 12 [CeX6Z3]3+
0
 
 
[CeX8Z2]3+
0
 
 
[CeX10Z]3+
0
 
 
[CeX12]3+
0
 
 
[CeLX12]3+
0
 
 
[CeL2X12]3+
0
 
 
[CeL3X12]3+
0
 
 
[CeL4X12]3+
0
 
 
[CeL5X12]3+
0
 
 
[CeL6X12]3+
0

MLXZ grid for cerium (Ce) for Q = 4: [CeXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for hafnium (Hf) for Q = -6: [HfXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for hafnium (Hf) for Q = -5: [HfXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for hafnium (Hf) for Q = -4: [HfXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for hafnium (Hf) for Q = -3: [HfXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for hafnium (Hf) for Q = -2: [HfXxLlZz]2-

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 hafnium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [HfL]2-
0
 
 
[HfL2]2-
0
 
 
[HfL3]2-
0
 
 
[HfL4]2-
0
 
 
[HfL5]2-
0
 
 
[HfL6]2-
13%
X+2Z = 1  
 
[HfLX]2-
0
 
 
[HfL2X]2-
0
 
 
[HfL3X]2-
0
 
 
[HfL4X]2-
0
 
 
[HfL5X]2-
0
 
 
X+2Z = 2 [HfX2]2-
0
 
 
[HfLX2]2-
0
 
 
[HfL2X2]2-
0
 
 
[HfL3X2]2-
0
 
 
[HfL4X2]2-
13%
 
 
[HfL5X2]2-
0
X+2Z = 3  
 
[HfX3]2-
0
 
 
[HfLX3]2-
0
 
 
[HfL2X3]2-
0
 
 
[HfL3X3]2-
0
 
 
[HfL4X3]2-
0
 
 
X+2Z = 4 [HfX2Z]2-
0
 
 
[HfX4]2-
0
 
 
[HfLX4]2-
0
 
 
[HfL2X4]2-
0
 
 
[HfL3X4]2-
0
 
 
[HfL4X4]2-
13%
X+2Z = 5  
 
[HfX3Z]2-
0
 
 
[HfX5]2-
0
 
 
[HfLX5]2-
0
 
 
[HfL2X5]2-
0
 
 
[HfL3X5]2-
0
 
 
X+2Z = 6 [HfX2Z2]2-
0
 
 
[HfX4Z]2-
0
 
 
[HfX6]2-
63%
 
 
[HfLX6]2-
0
 
 
[HfL2X6]2-
0
 
 
[HfL3X6]2-
0
X+2Z = 7  
 
[HfX3Z2]2-
0
 
 
[HfX5Z]2-
0
 
 
[HfX7]2-
0
 
 
[HfLX7]2-
0
 
 
[HfL2X7]2-
0
 
 
X+2Z = 8 [HfX2Z3]2-
0
 
 
[HfX4Z2]2-
0
 
 
[HfX6Z]2-
0
 
 
[HfX8]2-
0
 
 
[HfLX8]2-
0
 
 
[HfL2X8]2-
0
X+2Z = 9  
 
[HfX3Z3]2-
0
 
 
[HfX5Z2]2-
0
 
 
[HfX7Z]2-
0
 
 
[HfX9]2-
0
 
 
[HfLX9]2-
0
 
 
X+2Z = 10 [HfX2Z4]2-
0
 
 
[HfX4Z3]2-
0
 
 
[HfX6Z2]2-
0
 
 
[HfX8Z]2-
0
 
 
[HfX10]2-
0
 
 
[HfLX10]2-
0
X+2Z = 11  
 
[HfX3Z4]2-
0
 
 
[HfX5Z3]2-
0
 
 
[HfX7Z2]2-
0
 
 
[HfX9Z]2-
0
 
 
[HfX11]2-
0
 
 
X+2Z = 12 [HfX2Z5]2-
0
 
 
[HfX4Z4]2-
0
 
 
[HfX6Z3]2-
0
 
 
[HfX8Z2]2-
0
 
 
[HfX10Z]2-
0
 
 
[HfX12]2-
0

MLXZ grid for hafnium (Hf) for Q = -1: [HfXxLlZz]-

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 hafnium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0  
 
[HfL2]-
0
 
 
[HfL3]-
0
 
 
[HfL4]-
0
 
 
[HfL5]-
0
 
 
[HfL6]-
0
 
 
X+2Z = 1 [HfLX]-
0
 
 
[HfL2X]-
0
 
 
[HfL3X]-
0
 
 
[HfL4X]-
0
 
 
[HfL5X]-
0
 
 
[HfL6X]-
0
X+2Z = 2  
 
[HfLX2]-
0
 
 
[HfL2X2]-
0
 
 
[HfL3X2]-
0
 
 
[HfL4X2]-
0
 
 
[HfL5X2]-
0
 
 
X+2Z = 3 [HfX3]-
0
 
 
[HfLX3]-
0
 
 
[HfL2X3]-
0
 
 
[HfL3X3]-
0
 
 
[HfL4X3]-
0
 
 
[HfL5X3]-
0
X+2Z = 4  
 
[HfX4]-
0
 
 
[HfLX4]-
0
 
 
[HfL2X4]-
0
 
 
[HfL3X4]-
0
 
 
[HfL4X4]-
0
 
 
X+2Z = 5 [HfX3Z]-
0
 
 
[HfX5]-
13%
 
 
[HfLX5]-
25%
 
 
[HfL2X5]-
38%
 
 
[HfL3X5]-
13%
 
 
[HfL4X5]-
13%
X+2Z = 6  
 
[HfX4Z]-
0
 
 
[HfX6]-
0
 
 
[HfLX6]-
0
 
 
[HfL2X6]-
0
 
 
[HfL3X6]-
0
 
 
X+2Z = 7 [HfX3Z2]-
0
 
 
[HfX5Z]-
0
 
 
[HfX7]-
0
 
 
[HfLX7]-
0
 
 
[HfL2X7]-
0
 
 
[HfL3X7]-
0
X+2Z = 8  
 
[HfX4Z2]-
0
 
 
[HfX6Z]-
0
 
 
[HfX8]-
0
 
 
[HfLX8]-
0
 
 
[HfL2X8]-
0
 
 
X+2Z = 9 [HfX3Z3]-
0
 
 
[HfX5Z2]-
0
 
 
[HfX7Z]-
0
 
 
[HfX9]-
0
 
 
[HfLX9]-
0
 
 
[HfL2X9]-
0
X+2Z = 10  
 
[HfX4Z3]-
0
 
 
[HfX6Z2]-
0
 
 
[HfX8Z]-
0
 
 
[HfX10]-
0
 
 
[HfLX10]-
0
 
 
X+2Z = 11 [HfX3Z4]-
0
 
 
[HfX5Z3]-
0
 
 
[HfX7Z2]-
0
 
 
[HfX9Z]-
0
 
 
[HfX11]-
0
 
 
[HfLX11]-
0
X+2Z = 12  
 
[HfX4Z4]-
0
 
 
[HfX6Z3]-
0
 
 
[HfX8Z2]-
0
 
 
[HfX10Z]-
0
 
 
[HfX12]-
0
 
 

MLXZ grid for hafnium (Hf) for Q = 0: [HfXxLlZz]

The number of compounds found is 120.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 hafnium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [HfL2]
0
 
 
[HfL3]
0
 
 
[HfL4]
0
 
 
[HfL5]
0
 
 
[HfL6]
0
 
 
[HfL7]
0
X+2Z = 1  
 
[HfL2X]
0
 
 
[HfL3X]
0
 
 
[HfL4X]
0
 
 
[HfL5X]
0
 
 
[HfL6X]
0
 
 
X+2Z = 2 [HfLX2]
0
 
 
[HfL2X2]
0
 
 
[HfL3X2]
0
 
 
[HfL4X2]
1%
 
 
[HfL5X2]
1%
 
 
[HfL6X2]
4%
X+2Z = 3  
 
[HfLX3]
0
 
 
[HfL2X3]
0
 
 
[HfL3X3]
1%
 
 
[HfL4X3]
1%
 
 
[HfL5X3]
2%
 
 
X+2Z = 4 [HfX4]
1%
 
 
[HfLX4]
3%
 
 
[HfL2X4]
23%
 
 
[HfL3X4]
10%
 
 
[HfL4X4]
44%
 
 
[HfL5X4]
9%
X+2Z = 5  
 
[HfX5]
0
 
 
[HfLX5]
0
 
 
[HfL2X5]
0
 
 
[HfL3X5]
0
 
 
[HfL4X5]
0
 
 
X+2Z = 6 [HfX4Z]
0
 
 
[HfX6]
0
 
 
[HfLX6]
0
 
 
[HfL2X6]
0
 
 
[HfL3X6]
0
 
 
[HfL4X6]
0
X+2Z = 7  
 
[HfX5Z]
0
 
 
[HfX7]
0
 
 
[HfLX7]
0
 
 
[HfL2X7]
0
 
 
[HfL3X7]
0
 
 
X+2Z = 8 [HfX4Z2]
0
 
 
[HfX6Z]
0
 
 
[HfX8]
0
 
 
[HfLX8]
0
 
 
[HfL2X8]
0
 
 
[HfL3X8]
0
X+2Z = 9  
 
[HfX5Z2]
0
 
 
[HfX7Z]
0
 
 
[HfX9]
0
 
 
[HfLX9]
0
 
 
[HfL2X9]
0
 
 
X+2Z = 10 [HfX4Z3]
0
 
 
[HfX6Z2]
0
 
 
[HfX8Z]
0
 
 
[HfX10]
0
 
 
[HfLX10]
0
 
 
[HfL2X10]
0
X+2Z = 11  
 
[HfX5Z3]
0
 
 
[HfX7Z2]
0
 
 
[HfX9Z]
0
 
 
[HfX11]
0
 
 
[HfLX11]
0
 
 
X+2Z = 12 [HfX4Z4]
0
 
 
[HfX6Z3]
0
 
 
[HfX8Z2]
0
 
 
[HfX10Z]
0
 
 
[HfX12]
0
 
 
[HfLX12]
0

MLXZ grid for hafnium (Hf) for Q = 1: [HfXxLlZz]+

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 hafnium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0  
 
[HfL3]+
0
 
 
[HfL4]+
0
 
 
[HfL5]+
0
 
 
[HfL6]+
0
 
 
[HfL7]+
0
 
 
X+2Z = 1 [HfL2X]+
0
 
 
[HfL3X]+
0
 
 
[HfL4X]+
0
 
 
[HfL5X]+
0
 
 
[HfL6X]+
0
 
 
[HfL7X]+
0
X+2Z = 2  
 
[HfL2X2]+
0
 
 
[HfL3X2]+
0
 
 
[HfL4X2]+
0
 
 
[HfL5X2]+
0
 
 
[HfL6X2]+
0
 
 
X+2Z = 3 [HfLX3]+
0
 
 
[HfL2X3]+
0
 
 
[HfL3X3]+
50%
 
 
[HfL4X3]+
0
 
 
[HfL5X3]+
25%
 
 
[HfL6X3]+
25%
X+2Z = 4  
 
[HfLX4]+
0
 
 
[HfL2X4]+
0
 
 
[HfL3X4]+
0
 
 
[HfL4X4]+
0
 
 
[HfL5X4]+
0
 
 
X+2Z = 5 [HfX5]+
0
 
 
[HfLX5]+
0
 
 
[HfL2X5]+
0
 
 
[HfL3X5]+
0
 
 
[HfL4X5]+
0
 
 
[HfL5X5]+
0
X+2Z = 6  
 
[HfX6]+
0
 
 
[HfLX6]+
0
 
 
[HfL2X6]+
0
 
 
[HfL3X6]+
0
 
 
[HfL4X6]+
0
 
 
X+2Z = 7 [HfX5Z]+
0
 
 
[HfX7]+
0
 
 
[HfLX7]+
0
 
 
[HfL2X7]+
0
 
 
[HfL3X7]+
0
 
 
[HfL4X7]+
0
X+2Z = 8  
 
[HfX6Z]+
0
 
 
[HfX8]+
0
 
 
[HfLX8]+
0
 
 
[HfL2X8]+
0
 
 
[HfL3X8]+
0
 
 
X+2Z = 9 [HfX5Z2]+
0
 
 
[HfX7Z]+
0
 
 
[HfX9]+
0
 
 
[HfLX9]+
0
 
 
[HfL2X9]+
0
 
 
[HfL3X9]+
0
X+2Z = 10  
 
[HfX6Z2]+
0
 
 
[HfX8Z]+
0
 
 
[HfX10]+
0
 
 
[HfLX10]+
0
 
 
[HfL2X10]+
0
 
 
X+2Z = 11 [HfX5Z3]+
0
 
 
[HfX7Z2]+
0
 
 
[HfX9Z]+
0
 
 
[HfX11]+
0
 
 
[HfLX11]+
0
 
 
[HfL2X11]+
0
X+2Z = 12  
 
[HfX6Z3]+
0
 
 
[HfX8Z2]+
0
 
 
[HfX10Z]+
0
 
 
[HfX12]+
0
 
 
[HfLX12]+
0
 
 

MLXZ grid for hafnium (Hf) for Q = 2: [HfXxLlZz]2+

The number of compounds found is 2.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 hafnium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [HfL3]2+
0
 
 
[HfL4]2+
0
 
 
[HfL5]2+
0
 
 
[HfL6]2+
0
 
 
[HfL7]2+
0
 
 
[HfL8]2+
0
X+2Z = 1  
 
[HfL3X]2+
0
 
 
[HfL4X]2+
0
 
 
[HfL5X]2+
0
 
 
[HfL6X]2+
0
 
 
[HfL7X]2+
0
 
 
X+2Z = 2 [HfL2X2]2+
0
 
 
[HfL3X2]2+
0
 
 
[HfL4X2]2+
0
 
 
[HfL5X2]2+
0
 
 
[HfL6X2]2+
0
 
 
[HfL7X2]2+
0
X+2Z = 3  
 
[HfL2X3]2+
0
 
 
[HfL3X3]2+
0
 
 
[HfL4X3]2+
0
 
 
[HfL5X3]2+
0
 
 
[HfL6X3]2+
0
 
 
X+2Z = 4 [HfLX4]2+
0
 
 
[HfL2X4]2+
0
 
 
[HfL3X4]2+
0
 
 
[HfL4X4]2+
0
 
 
[HfL5X4]2+
0
 
 
[HfL6X4]2+
0
X+2Z = 5  
 
[HfLX5]2+
0
 
 
[HfL2X5]2+
0
 
 
[HfL3X5]2+
0
 
 
[HfL4X5]2+
0
 
 
[HfL5X5]2+
0
 
 
X+2Z = 6 [HfX6]2+
0
 
 
[HfLX6]2+
0
 
 
[HfL2X6]2+
0
 
 
[HfL3X6]2+
0
 
 
[HfL4X6]2+
0
 
 
[HfL5X6]2+
0
X+2Z = 7  
 
[HfX7]2+
0
 
 
[HfLX7]2+
0
 
 
[HfL2X7]2+
0
 
 
[HfL3X7]2+
0
 
 
[HfL4X7]2+
0
 
 
X+2Z = 8 [HfX6Z]2+
0
 
 
[HfX8]2+
0
 
 
[HfLX8]2+
0
 
 
[HfL2X8]2+
0
 
 
[HfL3X8]2+
0
 
 
[HfL4X8]2+
0
X+2Z = 9  
 
[HfX7Z]2+
0
 
 
[HfX9]2+
0
 
 
[HfLX9]2+
0
 
 
[HfL2X9]2+
0
 
 
[HfL3X9]2+
0
 
 
X+2Z = 10 [HfX6Z2]2+
0
 
 
[HfX8Z]2+
0
 
 
[HfX10]2+
0
 
 
[HfLX10]2+
0
 
 
[HfL2X10]2+
0
 
 
[HfL3X10]2+
0
X+2Z = 11  
 
[HfX7Z2]2+
0
 
 
[HfX9Z]2+
0
 
 
[HfX11]2+
0
 
 
[HfLX11]2+
0
 
 
[HfL2X11]2+
0
 
 
X+2Z = 12 [HfX6Z3]2+
0
 
 
[HfX8Z2]2+
0
 
 
[HfX10Z]2+
0
 
 
[HfX12]2+
0
 
 
[HfLX12]2+
0
 
 
[HfL2X12]2+
0

MLXZ grid for hafnium (Hf) for Q = 3: [HfXxLlZz]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 hafnium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0  
 
[HfL4]3+
0
 
 
[HfL5]3+
0
 
 
[HfL6]3+
0
 
 
[HfL7]3+
0
 
 
[HfL8]3+
0
 
 
X+2Z = 1 [HfL3X]3+
0
 
 
[HfL4X]3+
0
 
 
[HfL5X]3+
0
 
 
[HfL6X]3+
0
 
 
[HfL7X]3+
0
 
 
[HfL8X]3+
100%
X+2Z = 2  
 
[HfL3X2]3+
0
 
 
[HfL4X2]3+
0
 
 
[HfL5X2]3+
0
 
 
[HfL6X2]3+
0
 
 
[HfL7X2]3+
0
 
 
X+2Z = 3 [HfL2X3]3+
0
 
 
[HfL3X3]3+
0
 
 
[HfL4X3]3+
0
 
 
[HfL5X3]3+
0
 
 
[HfL6X3]3+
0
 
 
[HfL7X3]3+
0
X+2Z = 4  
 
[HfL2X4]3+
0
 
 
[HfL3X4]3+
0
 
 
[HfL4X4]3+
0
 
 
[HfL5X4]3+
0
 
 
[HfL6X4]3+
0
 
 
X+2Z = 5 [HfLX5]3+
0
 
 
[HfL2X5]3+
0
 
 
[HfL3X5]3+
0
 
 
[HfL4X5]3+
0
 
 
[HfL5X5]3+
0
 
 
[HfL6X5]3+
0
X+2Z = 6  
 
[HfLX6]3+
0
 
 
[HfL2X6]3+
0
 
 
[HfL3X6]3+
0
 
 
[HfL4X6]3+
0
 
 
[HfL5X6]3+
0
 
 
X+2Z = 7 [HfX7]3+
0
 
 
[HfLX7]3+
0
 
 
[HfL2X7]3+
0
 
 
[HfL3X7]3+
0
 
 
[HfL4X7]3+
0
 
 
[HfL5X7]3+
0
X+2Z = 8  
 
[HfX8]3+
0
 
 
[HfLX8]3+
0
 
 
[HfL2X8]3+
0
 
 
[HfL3X8]3+
0
 
 
[HfL4X8]3+
0
 
 
X+2Z = 9 [HfX7Z]3+
0
 
 
[HfX9]3+
0
 
 
[HfLX9]3+
0
 
 
[HfL2X9]3+
0
 
 
[HfL3X9]3+
0
 
 
[HfL4X9]3+
0
X+2Z = 10  
 
[HfX8Z]3+
0
 
 
[HfX10]3+
0
 
 
[HfLX10]3+
0
 
 
[HfL2X10]3+
0
 
 
[HfL3X10]3+
0
 
 
X+2Z = 11 [HfX7Z2]3+
0
 
 
[HfX9Z]3+
0
 
 
[HfX11]3+
0
 
 
[HfLX11]3+
0
 
 
[HfL2X11]3+
0
 
 
[HfL3X11]3+
0
X+2Z = 12  
 
[HfX8Z2]3+
0
 
 
[HfX10Z]3+
0
 
 
[HfX12]3+
0
 
 
[HfLX12]3+
0
 
 
[HfL2X12]3+
0
 
 

MLXZ grid for hafnium (Hf) for Q = 4: [HfXxLlZz]4+

The number of compounds found is 1.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 hafnium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [HfL4]4+
0
 
 
[HfL5]4+
0
 
 
[HfL6]4+
0
 
 
[HfL7]4+
0
 
 
[HfL8]4+
100%
 
 
[HfL9]4+
0
X+2Z = 1  
 
[HfL4X]4+
0
 
 
[HfL5X]4+
0
 
 
[HfL6X]4+
0
 
 
[HfL7X]4+
0
 
 
[HfL8X]4+
0
 
 
X+2Z = 2 [HfL3X2]4+
0
 
 
[HfL4X2]4+
0
 
 
[HfL5X2]4+
0
 
 
[HfL6X2]4+
0
 
 
[HfL7X2]4+
0
 
 
[HfL8X2]4+
0
X+2Z = 3  
 
[HfL3X3]4+
0
 
 
[HfL4X3]4+
0
 
 
[HfL5X3]4+
0
 
 
[HfL6X3]4+
0
 
 
[HfL7X3]4+
0
 
 
X+2Z = 4 [HfL2X4]4+
0
 
 
[HfL3X4]4+
0
 
 
[HfL4X4]4+
0
 
 
[HfL5X4]4+
0
 
 
[HfL6X4]4+
0
 
 
[HfL7X4]4+
0
X+2Z = 5  
 
[HfL2X5]4+
0
 
 
[HfL3X5]4+
0
 
 
[HfL4X5]4+
0
 
 
[HfL5X5]4+
0
 
 
[HfL6X5]4+
0
 
 
X+2Z = 6 [HfLX6]4+
0
 
 
[HfL2X6]4+
0
 
 
[HfL3X6]4+
0
 
 
[HfL4X6]4+
0
 
 
[HfL5X6]4+
0
 
 
[HfL6X6]4+
0
X+2Z = 7  
 
[HfLX7]4+
0
 
 
[HfL2X7]4+
0
 
 
[HfL3X7]4+
0
 
 
[HfL4X7]4+
0
 
 
[HfL5X7]4+
0
 
 
X+2Z = 8 [HfX8]4+
0
 
 
[HfLX8]4+
0
 
 
[HfL2X8]4+
0
 
 
[HfL3X8]4+
0
 
 
[HfL4X8]4+
0
 
 
[HfL5X8]4+
0
X+2Z = 9  
 
[HfX9]4+
0
 
 
[HfLX9]4+
0
 
 
[HfL2X9]4+
0
 
 
[HfL3X9]4+
0
 
 
[HfL4X9]4+
0
 
 
X+2Z = 10 [HfX8Z]4+
0
 
 
[HfX10]4+
0
 
 
[HfLX10]4+
0
 
 
[HfL2X10]4+
0
 
 
[HfL3X10]4+
0
 
 
[HfL4X10]4+
0
X+2Z = 11  
 
[HfX9Z]4+
0
 
 
[HfX11]4+
0
 
 
[HfLX11]4+
0
 
 
[HfL2X11]4+
0
 
 
[HfL3X11]4+
0
 
 
X+2Z = 12 [HfX8Z2]4+
0
 
 
[HfX10Z]4+
0
 
 
[HfX12]4+
0
 
 
[HfLX12]4+
0
 
 
[HfL2X12]4+
0
 
 
[HfL3X12]4+
0

MLXZ grid for thorium (Th) for Q = -6: [ThXxLlZz]6-

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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0 [ThZ]6-
0
 
 
[Th]6-
0
 
 
[ThL]6-
0
 
 
[ThL2]6-
0
 
 
[ThL3]6-
0
 
 
[ThL4]6-
0
 
 
[ThL5]6-
0
 
 
[ThL6]6-
0
 
 
[ThL7]6-
0
X+2Z = 1  
 
[ThZ]6-
0
 
 
[ThX]6-
0
 
 
[ThLX]6-
0
 
 
[ThL2X]6-
0
 
 
[ThL3X]6-
0
 
 
[ThL4X]6-
0
 
 
[ThL5X]6-
0
 
 
[ThL6X]6-
0
 
 
X+2Z = 2 [ThZ2]6-
0
 
 
[ThZ]6-
0
 
 
[ThX2]6-
0
 
 
[ThLX2]6-
0
 
 
[ThL2X2]6-
0
 
 
[ThL3X2]6-
0
 
 
[ThL4X2]6-
0
 
 
[ThL5X2]6-
0
 
 
[ThL6X2]6-
0
X+2Z = 3  
 
[ThZ2]6-
0
 
 
[ThXZ]6-
0
 
 
[ThX3]6-
0
 
 
[ThLX3]6-
0
 
 
[ThL2X3]6-
0
 
 
[ThL3X3]6-
0
 
 
[ThL4X3]6-
0
 
 
[ThL5X3]6-
0
 
 
X+2Z = 4 [ThZ3]6-
0
 
 
[ThZ2]6-
0
 
 
[ThX2Z]6-
0
 
 
[ThX4]6-
0
 
 
[ThLX4]6-
0
 
 
[ThL2X4]6-
0
 
 
[ThL3X4]6-
0
 
 
[ThL4X4]6-
0
 
 
[ThL5X4]6-
0
X+2Z = 5  
 
[ThZ3]6-
0
 
 
[ThXZ2]6-
0
 
 
[ThX3Z]6-
0
 
 
[ThX5]6-
0
 
 
[ThLX5]6-
0
 
 
[ThL2X5]6-
0
 
 
[ThL3X5]6-
0
 
 
[ThL4X5]6-
0
 
 
X+2Z = 6 [ThZ4]6-
0
 
 
[ThZ3]6-
0
 
 
[ThX2Z2]6-
0
 
 
[ThX4Z]6-
0
 
 
[ThX6]6-
0
 
 
[ThLX6]6-
0
 
 
[ThL2X6]6-
0
 
 
[ThL3X6]6-
0
 
 
[ThL4X6]6-
0
X+2Z = 7  
 
[ThZ4]6-
0
 
 
[ThXZ3]6-
0
 
 
[ThX3Z2]6-
0
 
 
[ThX5Z]6-
0
 
 
[ThX7]6-
0
 
 
[ThLX7]6-
0
 
 
[ThL2X7]6-
0
 
 
[ThL3X7]6-
0
 
 
X+2Z = 8 [ThZ5]6-
0
 
 
[ThZ4]6-
0
 
 
[ThX2Z3]6-
0
 
 
[ThX4Z2]6-
0
 
 
[ThX6Z]6-
0
 
 
[ThX8]6-
0
 
 
[ThLX8]6-
0
 
 
[ThL2X8]6-
0
 
 
[ThL3X8]6-
0
X+2Z = 9  
 
[ThZ5]6-
0
 
 
[ThXZ4]6-
0
 
 
[ThX3Z3]6-
0
 
 
[ThX5Z2]6-
0
 
 
[ThX7Z]6-
0
 
 
[ThX9]6-
0
 
 
[ThLX9]6-
0
 
 
[ThL2X9]6-
0
 
 
X+2Z = 10 [ThZ6]6-
0
 
 
[ThZ5]6-
0
 
 
[ThX2Z4]6-
0
 
 
[ThX4Z3]6-
0
 
 
[ThX6Z2]6-
0
 
 
[ThX8Z]6-
0
 
 
[ThX10]6-
100%
 
 
[ThLX10]6-
0
 
 
[ThL2X10]6-
0
X+2Z = 11  
 
[ThZ6]6-
0
 
 
[ThXZ5]6-
0
 
 
[ThX3Z4]6-
0
 
 
[ThX5Z3]6-
0
 
 
[ThX7Z2]6-
0
 
 
[ThX9Z]6-
0
 
 
[ThX11]6-
0
 
 
[ThLX11]6-
0
 
 
X+2Z = 12 [ThZ7]6-
0
 
 
[ThZ6]6-
0
 
 
[ThX2Z5]6-
0
 
 
[ThX4Z4]6-
0
 
 
[ThX6Z3]6-
0
 
 
[ThX8Z2]6-
0
 
 
[ThX10Z]6-
0
 
 
[ThX12]6-
0
 
 
[ThLX12]6-
0

MLXZ grid for thorium (Th) for Q = -5: [ThXxLlZz]5-

The number of compounds found is 1.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0  
 
[Th]5-
0
 
 
[ThL]5-
0
 
 
[ThL2]5-
0
 
 
[ThL3]5-
0
 
 
[ThL4]5-
0
 
 
[ThL5]5-
0
 
 
[ThL6]5-
0
 
 
[ThL7]5-
0
 
 
X+2Z = 1 [ThZ]5-
0
 
 
[ThX]5-
0
 
 
[ThLX]5-
0
 
 
[ThL2X]5-
0
 
 
[ThL3X]5-
0
 
 
[ThL4X]5-
0
 
 
[ThL5X]5-
0
 
 
[ThL6X]5-
0
 
 
[ThL7X]5-
0
X+2Z = 2  
 
[ThZ]5-
0
 
 
[ThX2]5-
0
 
 
[ThLX2]5-
0
 
 
[ThL2X2]5-
0
 
 
[ThL3X2]5-
0
 
 
[ThL4X2]5-
0
 
 
[ThL5X2]5-
0
 
 
[ThL6X2]5-
0
 
 
X+2Z = 3 [ThZ2]5-
0
 
 
[ThXZ]5-
0
 
 
[ThX3]5-
0
 
 
[ThLX3]5-
0
 
 
[ThL2X3]5-
0
 
 
[ThL3X3]5-
0
 
 
[ThL4X3]5-
0
 
 
[ThL5X3]5-
0
 
 
[ThL6X3]5-
0
X+2Z = 4  
 
[ThZ2]5-
0
 
 
[ThX2Z]5-
0
 
 
[ThX4]5-
0
 
 
[ThLX4]5-
0
 
 
[ThL2X4]5-
0
 
 
[ThL3X4]5-
0
 
 
[ThL4X4]5-
0
 
 
[ThL5X4]5-
0
 
 
X+2Z = 5 [ThZ3]5-
0
 
 
[ThXZ2]5-
0
 
 
[ThX3Z]5-
0
 
 
[ThX5]5-
0
 
 
[ThLX5]5-
0
 
 
[ThL2X5]5-
0
 
 
[ThL3X5]5-
0
 
 
[ThL4X5]5-
0
 
 
[ThL5X5]5-
0
X+2Z = 6  
 
[ThZ3]5-
0
 
 
[ThX2Z2]5-
0
 
 
[ThX4Z]5-
0
 
 
[ThX6]5-
0
 
 
[ThLX6]5-
0
 
 
[ThL2X6]5-
0
 
 
[ThL3X6]5-
0
 
 
[ThL4X6]5-
0
 
 
X+2Z = 7 [ThZ4]5-
0
 
 
[ThXZ3]5-
0
 
 
[ThX3Z2]5-
0
 
 
[ThX5Z]5-
0
 
 
[ThX7]5-
0
 
 
[ThLX7]5-
0
 
 
[ThL2X7]5-
0
 
 
[ThL3X7]5-
0
 
 
[ThL4X7]5-
0
X+2Z = 8  
 
[ThZ4]5-
0
 
 
[ThX2Z3]5-
0
 
 
[ThX4Z2]5-
0
 
 
[ThX6Z]5-
0
 
 
[ThX8]5-
0
 
 
[ThLX8]5-
0
 
 
[ThL2X8]5-
0
 
 
[ThL3X8]5-
0
 
 
X+2Z = 9 [ThZ5]5-
0
 
 
[ThXZ4]5-
0
 
 
[ThX3Z3]5-
0
 
 
[ThX5Z2]5-
0
 
 
[ThX7Z]5-
0
 
 
[ThX9]5-
100%
 
 
[ThLX9]5-
0
 
 
[ThL2X9]5-
0
 
 
[ThL3X9]5-
0
X+2Z = 10  
 
[ThZ5]5-
0
 
 
[ThX2Z4]5-
0
 
 
[ThX4Z3]5-
0
 
 
[ThX6Z2]5-
0
 
 
[ThX8Z]5-
0
 
 
[ThX10]5-
0
 
 
[ThLX10]5-
0
 
 
[ThL2X10]5-
0
 
 
X+2Z = 11 [ThZ6]5-
0
 
 
[ThXZ5]5-
0
 
 
[ThX3Z4]5-
0
 
 
[ThX5Z3]5-
0
 
 
[ThX7Z2]5-
0
 
 
[ThX9Z]5-
0
 
 
[ThX11]5-
0
 
 
[ThLX11]5-
0
 
 
[ThL2X11]5-
0
X+2Z = 12  
 
[ThZ6]5-
0
 
 
[ThX2Z5]5-
0
 
 
[ThX4Z4]5-
0
 
 
[ThX6Z3]5-
0
 
 
[ThX8Z2]5-
0
 
 
[ThX10Z]5-
0
 
 
[ThX12]5-
0
 
 
[ThLX12]5-
0
 
 

MLXZ grid for thorium (Th) for Q = -4: [ThXxLlZz]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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0 [Th]4-
0
 
 
[ThL]4-
0
 
 
[ThL2]4-
0
 
 
[ThL3]4-
0
 
 
[ThL4]4-
0
 
 
[ThL5]4-
0
 
 
[ThL6]4-
0
 
 
[ThL7]4-
0
 
 
[ThL8]4-
0
X+2Z = 1  
 
[ThX]4-
0
 
 
[ThLX]4-
0
 
 
[ThL2X]4-
0
 
 
[ThL3X]4-
0
 
 
[ThL4X]4-
0
 
 
[ThL5X]4-
0
 
 
[ThL6X]4-
0
 
 
[ThL7X]4-
0
 
 
X+2Z = 2 [ThZ]4-
0
 
 
[ThX2]4-
0
 
 
[ThLX2]4-
0
 
 
[ThL2X2]4-
0
 
 
[ThL3X2]4-
0
 
 
[ThL4X2]4-
0
 
 
[ThL5X2]4-
0
 
 
[ThL6X2]4-
0
 
 
[ThL7X2]4-
0
X+2Z = 3  
 
[ThXZ]4-
0
 
 
[ThX3]4-
0
 
 
[ThLX3]4-
0
 
 
[ThL2X3]4-
0
 
 
[ThL3X3]4-
0
 
 
[ThL4X3]4-
0
 
 
[ThL5X3]4-
0
 
 
[ThL6X3]4-
0
 
 
X+2Z = 4 [ThZ2]4-
0
 
 
[ThX2Z]4-
0
 
 
[ThX4]4-
0
 
 
[ThLX4]4-
0
 
 
[ThL2X4]4-
0
 
 
[ThL3X4]4-
0
 
 
[ThL4X4]4-
0
 
 
[ThL5X4]4-
0
 
 
[ThL6X4]4-
0
X+2Z = 5  
 
[ThXZ2]4-
0
 
 
[ThX3Z]4-
0
 
 
[ThX5]4-
0
 
 
[ThLX5]4-
0
 
 
[ThL2X5]4-
0
 
 
[ThL3X5]4-
0
 
 
[ThL4X5]4-
0
 
 
[ThL5X5]4-
0
 
 
X+2Z = 6 [ThZ3]4-
0
 
 
[ThX2Z2]4-
0
 
 
[ThX4Z]4-
0
 
 
[ThX6]4-
0
 
 
[ThLX6]4-
0
 
 
[ThL2X6]4-
0
 
 
[ThL3X6]4-
0
 
 
[ThL4X6]4-
0
 
 
[ThL5X6]4-
0
X+2Z = 7  
 
[ThXZ3]4-
0
 
 
[ThX3Z2]4-
0
 
 
[ThX5Z]4-
0
 
 
[ThX7]4-
0
 
 
[ThLX7]4-
0
 
 
[ThL2X7]4-
0
 
 
[ThL3X7]4-
0
 
 
[ThL4X7]4-
0
 
 
X+2Z = 8 [ThZ4]4-
0
 
 
[ThX2Z3]4-
0
 
 
[ThX4Z2]4-
0
 
 
[ThX6Z]4-
0
 
 
[ThX8]4-
33%
 
 
[ThLX8]4-
33%
 
 
[ThL2X8]4-
33%
 
 
[ThL3X8]4-
0
 
 
[ThL4X8]4-
0
X+2Z = 9  
 
[ThXZ4]4-
0
 
 
[ThX3Z3]4-
0
 
 
[ThX5Z2]4-
0
 
 
[ThX7Z]4-
0
 
 
[ThX9]4-
0
 
 
[ThLX9]4-
0
 
 
[ThL2X9]4-
0
 
 
[ThL3X9]4-
0
 
 
X+2Z = 10 [ThZ5]4-
0
 
 
[ThX2Z4]4-
0
 
 
[ThX4Z3]4-
0
 
 
[ThX6Z2]4-
0
 
 
[ThX8Z]4-
0
 
 
[ThX10]4-
0
 
 
[ThLX10]4-
0
 
 
[ThL2X10]4-
0
 
 
[ThL3X10]4-
0
X+2Z = 11  
 
[ThXZ5]4-
0
 
 
[ThX3Z4]4-
0
 
 
[ThX5Z3]4-
0
 
 
[ThX7Z2]4-
0
 
 
[ThX9Z]4-
0
 
 
[ThX11]4-
0
 
 
[ThLX11]4-
0
 
 
[ThL2X11]4-
0
 
 
X+2Z = 12 [ThZ6]4-
0
 
 
[ThX2Z5]4-
0
 
 
[ThX4Z4]4-
0
 
 
[ThX6Z3]4-
0
 
 
[ThX8Z2]4-
0
 
 
[ThX10Z]4-
0
 
 
[ThX12]4-
0
 
 
[ThLX12]4-
0
 
 
[ThL2X12]4-
0

MLXZ grid for thorium (Th) for Q = -3: [ThXxLlZz]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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0  
 
[ThL]3-
0
 
 
[ThL2]3-
0
 
 
[ThL3]3-
0
 
 
[ThL4]3-
0
 
 
[ThL5]3-
0
 
 
[ThL6]3-
0
 
 
[ThL7]3-
0
 
 
[ThL8]3-
0
 
 
X+2Z = 1 [ThX]3-
0
 
 
[ThLX]3-
0
 
 
[ThL2X]3-
0
 
 
[ThL3X]3-
0
 
 
[ThL4X]3-
0
 
 
[ThL5X]3-
0
 
 
[ThL6X]3-
0
 
 
[ThL7X]3-
0
 
 
[ThL8X]3-
0
X+2Z = 2  
 
[ThX2]3-
0
 
 
[ThLX2]3-
0
 
 
[ThL2X2]3-
0
 
 
[ThL3X2]3-
0
 
 
[ThL4X2]3-
0
 
 
[ThL5X2]3-
0
 
 
[ThL6X2]3-
0
 
 
[ThL7X2]3-
0
 
 
X+2Z = 3 [ThXZ]3-
0
 
 
[ThX3]3-
0
 
 
[ThLX3]3-
0
 
 
[ThL2X3]3-
0
 
 
[ThL3X3]3-
0
 
 
[ThL4X3]3-
0
 
 
[ThL5X3]3-
0
 
 
[ThL6X3]3-
0
 
 
[ThL7X3]3-
0
X+2Z = 4  
 
[ThX2Z]3-
0
 
 
[ThX4]3-
0
 
 
[ThLX4]3-
0
 
 
[ThL2X4]3-
0
 
 
[ThL3X4]3-
0
 
 
[ThL4X4]3-
0
 
 
[ThL5X4]3-
0
 
 
[ThL6X4]3-
0
 
 
X+2Z = 5 [ThXZ2]3-
0
 
 
[ThX3Z]3-
0
 
 
[ThX5]3-
0
 
 
[ThLX5]3-
0
 
 
[ThL2X5]3-
0
 
 
[ThL3X5]3-
0
 
 
[ThL4X5]3-
0
 
 
[ThL5X5]3-
0
 
 
[ThL6X5]3-
0
X+2Z = 6  
 
[ThX2Z2]3-
0
 
 
[ThX4Z]3-
0
 
 
[ThX6]3-
0
 
 
[ThLX6]3-
0
 
 
[ThL2X6]3-
0
 
 
[ThL3X6]3-
0
 
 
[ThL4X6]3-
0
 
 
[ThL5X6]3-
0
 
 
X+2Z = 7 [ThXZ3]3-
0
 
 
[ThX3Z2]3-
0
 
 
[ThX5Z]3-
0
 
 
[ThX7]3-
0
 
 
[ThLX7]3-
0
 
 
[ThL2X7]3-
0
 
 
[ThL3X7]3-
100%
 
 
[ThL4X7]3-
0
 
 
[ThL5X7]3-
0
X+2Z = 8  
 
[ThX2Z3]3-
0
 
 
[ThX4Z2]3-
0
 
 
[ThX6Z]3-
0
 
 
[ThX8]3-
0
 
 
[ThLX8]3-
0
 
 
[ThL2X8]3-
0
 
 
[ThL3X8]3-
0
 
 
[ThL4X8]3-
0
 
 
X+2Z = 9 [ThXZ4]3-
0
 
 
[ThX3Z3]3-
0
 
 
[ThX5Z2]3-
0
 
 
[ThX7Z]3-
0
 
 
[ThX9]3-
0
 
 
[ThLX9]3-
0
 
 
[ThL2X9]3-
0
 
 
[ThL3X9]3-
0
 
 
[ThL4X9]3-
0
X+2Z = 10  
 
[ThX2Z4]3-
0
 
 
[ThX4Z3]3-
0
 
 
[ThX6Z2]3-
0
 
 
[ThX8Z]3-
0
 
 
[ThX10]3-
0
 
 
[ThLX10]3-
0
 
 
[ThL2X10]3-
0
 
 
[ThL3X10]3-
0
 
 
X+2Z = 11 [ThXZ5]3-
0
 
 
[ThX3Z4]3-
0
 
 
[ThX5Z3]3-
0
 
 
[ThX7Z2]3-
0
 
 
[ThX9Z]3-
0
 
 
[ThX11]3-
0
 
 
[ThLX11]3-
0
 
 
[ThL2X11]3-
0
 
 
[ThL3X11]3-
0
X+2Z = 12  
 
[ThX2Z5]3-
0
 
 
[ThX4Z4]3-
0
 
 
[ThX6Z3]3-
0
 
 
[ThX8Z2]3-
0
 
 
[ThX10Z]3-
0
 
 
[ThX12]3-
0
 
 
[ThLX12]3-
0
 
 
[ThL2X12]3-
0
 
 

MLXZ grid for thorium (Th) for Q = -2: [ThXxLlZz]2-

The number of compounds found is 11.

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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0 [ThL]2-
0
 
 
[ThL2]2-
0
 
 
[ThL3]2-
0
 
 
[ThL4]2-
0
 
 
[ThL5]2-
0
 
 
[ThL6]2-
0
 
 
[ThL7]2-
0
 
 
[ThL8]2-
0
 
 
[ThL9]2-
0
X+2Z = 1  
 
[ThLX]2-
0
 
 
[ThL2X]2-
0
 
 
[ThL3X]2-
0
 
 
[ThL4X]2-
0
 
 
[ThL5X]2-
0
 
 
[ThL6X]2-
0
 
 
[ThL7X]2-
0
 
 
[ThL8X]2-
0
 
 
X+2Z = 2 [ThX2]2-
0
 
 
[ThLX2]2-
0
 
 
[ThL2X2]2-
0
 
 
[ThL3X2]2-
0
 
 
[ThL4X2]2-
0
 
 
[ThL5X2]2-
0
 
 
[ThL6X2]2-
0
 
 
[ThL7X2]2-
0
 
 
[ThL8X2]2-
0
X+2Z = 3  
 
[ThX3]2-
0
 
 
[ThLX3]2-
0
 
 
[ThL2X3]2-
0
 
 
[ThL3X3]2-
0
 
 
[ThL4X3]2-
0
 
 
[ThL5X3]2-
0
 
 
[ThL6X3]2-
0
 
 
[ThL7X3]2-
0
 
 
X+2Z = 4 [ThX2Z]2-
0
 
 
[ThX4]2-
0
 
 
[ThLX4]2-
0
 
 
[ThL2X4]2-
0
 
 
[ThL3X4]2-
0
 
 
[ThL4X4]2-
0
 
 
[ThL5X4]2-
0
 
 
[ThL6X4]2-
0
 
 
[ThL7X4]2-
0
X+2Z = 5  
 
[ThX3Z]2-
0
 
 
[ThX5]2-
0
 
 
[ThLX5]2-
0
 
 
[ThL2X5]2-
0
 
 
[ThL3X5]2-
0
 
 
[ThL4X5]2-
9%
 
 
[ThL5X5]2-
0
 
 
[ThL6X5]2-
0
 
 
X+2Z = 6 [ThX2Z2]2-
0
 
 
[ThX4Z]2-
0
 
 
[ThX6]2-
27%
 
 
[ThLX6]2-
0
 
 
[ThL2X6]2-
0
 
 
[ThL3X6]2-
27%
 
 
[ThL4X6]2-
0
 
 
[ThL5X6]2-
0
 
 
[ThL6X6]2-
36%
X+2Z = 7  
 
[ThX3Z2]2-
0
 
 
[ThX5Z]2-
0
 
 
[ThX7]2-
0
 
 
[ThLX7]2-
0
 
 
[ThL2X7]2-
0
 
 
[ThL3X7]2-
0
 
 
[ThL4X7]2-
0
 
 
[ThL5X7]2-
0
 
 
X+2Z = 8 [ThX2Z3]2-
0
 
 
[ThX4Z2]2-
0
 
 
[ThX6Z]2-
0
 
 
[ThX8]2-
0
 
 
[ThLX8]2-
0
 
 
[ThL2X8]2-
0
 
 
[ThL3X8]2-
0
 
 
[ThL4X8]2-
0
 
 
[ThL5X8]2-
0
X+2Z = 9  
 
[ThX3Z3]2-
0
 
 
[ThX5Z2]2-
0
 
 
[ThX7Z]2-
0
 
 
[ThX9]2-
0
 
 
[ThLX9]2-
0
 
 
[ThL2X9]2-
0
 
 
[ThL3X9]2-
0
 
 
[ThL4X9]2-
0
 
 
X+2Z = 10 [ThX2Z4]2-
0
 
 
[ThX4Z3]2-
0
 
 
[ThX6Z2]2-
0
 
 
[ThX8Z]2-
0
 
 
[ThX10]2-
0
 
 
[ThLX10]2-
0
 
 
[ThL2X10]2-
0
 
 
[ThL3X10]2-
0
 
 
[ThL4X10]2-
0
X+2Z = 11  
 
[ThX3Z4]2-
0
 
 
[ThX5Z3]2-
0
 
 
[ThX7Z2]2-
0
 
 
[ThX9Z]2-
0
 
 
[ThX11]2-
0
 
 
[ThLX11]2-
0
 
 
[ThL2X11]2-
0
 
 
[ThL3X11]2-
0
 
 
X+2Z = 12 [ThX2Z5]2-
0
 
 
[ThX4Z4]2-
0
 
 
[ThX6Z3]2-
0
 
 
[ThX8Z2]2-
0
 
 
[ThX10Z]2-
0
 
 
[ThX12]2-
0
 
 
[ThLX12]2-
0
 
 
[ThL2X12]2-
0
 
 
[ThL3X12]2-
0

MLXZ grid for thorium (Th) for Q = -1: [ThXxLlZz]-

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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0  
 
[ThL2]-
0
 
 
[ThL3]-
0
 
 
[ThL4]-
0
 
 
[ThL5]-
0
 
 
[ThL6]-
0
 
 
[ThL7]-
0
 
 
[ThL8]-
0
 
 
[ThL9]-
0
 
 
X+2Z = 1 [ThLX]-
0
 
 
[ThL2X]-
0
 
 
[ThL3X]-
0
 
 
[ThL4X]-
0
 
 
[ThL5X]-
0
 
 
[ThL6X]-
0
 
 
[ThL7X]-
0
 
 
[ThL8X]-
0
 
 
[ThL9X]-
0
X+2Z = 2  
 
[ThLX2]-
0
 
 
[ThL2X2]-
0
 
 
[ThL3X2]-
0
 
 
[ThL4X2]-
0
 
 
[ThL5X2]-
0
 
 
[ThL6X2]-
0
 
 
[ThL7X2]-
0
 
 
[ThL8X2]-
0
 
 
X+2Z = 3 [ThX3]-
0
 
 
[ThLX3]-
0
 
 
[ThL2X3]-
0
 
 
[ThL3X3]-
0
 
 
[ThL4X3]-
0
 
 
[ThL5X3]-
0
 
 
[ThL6X3]-
0
 
 
[ThL7X3]-
0
 
 
[ThL8X3]-
0
X+2Z = 4  
 
[ThX4]-
0
 
 
[ThLX4]-
0
 
 
[ThL2X4]-
0
 
 
[ThL3X4]-
0
 
 
[ThL4X4]-
50%
 
 
[ThL5X4]-
17%
 
 
[ThL6X4]-
0
 
 
[ThL7X4]-
0
 
 
X+2Z = 5 [ThX3Z]-
0
 
 
[ThX5]-
17%
 
 
[ThLX5]-
0
 
 
[ThL2X5]-
0
 
 
[ThL3X5]-
0
 
 
[ThL4X5]-
0
 
 
[ThL5X5]-
0
 
 
[ThL6X5]-
0
 
 
[ThL7X5]-
17%
X+2Z = 6  
 
[ThX4Z]-
0
 
 
[ThX6]-
0
 
 
[ThLX6]-
0
 
 
[ThL2X6]-
0
 
 
[ThL3X6]-
0
 
 
[ThL4X6]-
0
 
 
[ThL5X6]-
0
 
 
[ThL6X6]-
0
 
 
X+2Z = 7 [ThX3Z2]-
0
 
 
[ThX5Z]-
0
 
 
[ThX7]-
0
 
 
[ThLX7]-
0
 
 
[ThL2X7]-
0
 
 
[ThL3X7]-
0
 
 
[ThL4X7]-
0
 
 
[ThL5X7]-
0
 
 
[ThL6X7]-
0
X+2Z = 8  
 
[ThX4Z2]-
0
 
 
[ThX6Z]-
0
 
 
[ThX8]-
0
 
 
[ThLX8]-
0
 
 
[ThL2X8]-
0
 
 
[ThL3X8]-
0
 
 
[ThL4X8]-
0
 
 
[ThL5X8]-
0
 
 
X+2Z = 9 [ThX3Z3]-
0
 
 
[ThX5Z2]-
0
 
 
[ThX7Z]-
0
 
 
[ThX9]-
0
 
 
[ThLX9]-
0
 
 
[ThL2X9]-
0
 
 
[ThL3X9]-
0
 
 
[ThL4X9]-
0
 
 
[ThL5X9]-
0
X+2Z = 10  
 
[ThX4Z3]-
0
 
 
[ThX6Z2]-
0
 
 
[ThX8Z]-
0
 
 
[ThX10]-
0
 
 
[ThLX10]-
0
 
 
[ThL2X10]-
0
 
 
[ThL3X10]-
0
 
 
[ThL4X10]-
0
 
 
X+2Z = 11 [ThX3Z4]-
0
 
 
[ThX5Z3]-
0
 
 
[ThX7Z2]-
0
 
 
[ThX9Z]-
0
 
 
[ThX11]-
0
 
 
[ThLX11]-
0
 
 
[ThL2X11]-
0
 
 
[ThL3X11]-
0
 
 
[ThL4X11]-
0
X+2Z = 12  
 
[ThX4Z4]-
0
 
 
[ThX6Z3]-
0
 
 
[ThX8Z2]-
0
 
 
[ThX10Z]-
0
 
 
[ThX12]-
0
 
 
[ThLX12]-
0
 
 
[ThL2X12]-
0
 
 
[ThL3X12]-
0
 
 

MLXZ grid for thorium (Th) for Q = 0: [ThXxLlZz]

The number of compounds found is 117.

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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0 [ThL2]
0
 
 
[ThL3]
0
 
 
[ThL4]
0
 
 
[ThL5]
0
 
 
[ThL6]
0
 
 
[ThL7]
0
 
 
[ThL8]
0
 
 
[ThL9]
0
 
 
[ThL10]
0
X+2Z = 1  
 
[ThL2X]
0
 
 
[ThL3X]
0
 
 
[ThL4X]
0
 
 
[ThL5X]
0
 
 
[ThL6X]
0
 
 
[ThL7X]
0
 
 
[ThL8X]
0
 
 
[ThL9X]
0
 
 
X+2Z = 2 [ThLX2]
0
 
 
[ThL2X2]
0
 
 
[ThL3X2]
0
 
 
[ThL4X2]
2%
 
 
[ThL5X2]
0
 
 
[ThL6X2]
1%
 
 
[ThL7X2]
0
 
 
[ThL8X2]
0
 
 
[ThL9X2]
0
X+2Z = 3  
 
[ThLX3]
0
 
 
[ThL2X3]
0
 
 
[ThL3X3]
3%
 
 
[ThL4X3]
0
 
 
[ThL5X3]
2%
 
 
[ThL6X3]
3%
 
 
[ThL7X3]
0
 
 
[ThL8X3]
0
 
 
X+2Z = 4 [ThX4]
2%
 
 
[ThLX4]
0
 
 
[ThL2X4]
7%
 
 
[ThL3X4]
6%
 
 
[ThL4X4]
39%
 
 
[ThL5X4]
26%
 
 
[ThL6X4]
7%
 
 
[ThL7X4]
3%
 
 
[ThL8X4]
2%
X+2Z = 5  
 
[ThX5]
0
 
 
[ThLX5]
0
 
 
[ThL2X5]
0
 
 
[ThL3X5]
0
 
 
[ThL4X5]
0
 
 
[ThL5X5]
0
 
 
[ThL6X5]
0
 
 
[ThL7X5]
0
 
 
X+2Z = 6 [ThX4Z]
0
 
 
[ThX6]
0
 
 
[ThLX6]
0
 
 
[ThL2X6]
0
 
 
[ThL3X6]
0
 
 
[ThL4X6]
0
 
 
[ThL5X6]
0
 
 
[ThL6X6]
0
 
 
[ThL7X6]
0
X+2Z = 7  
 
[ThX5Z]
0
 
 
[ThX7]
0
 
 
[ThLX7]
0
 
 
[ThL2X7]
0
 
 
[ThL3X7]
0
 
 
[ThL4X7]
0
 
 
[ThL5X7]
0
 
 
[ThL6X7]
0
 
 
X+2Z = 8 [ThX4Z2]
0
 
 
[ThX6Z]
0
 
 
[ThX8]
0
 
 
[ThLX8]
0
 
 
[ThL2X8]
0
 
 
[ThL3X8]
0
 
 
[ThL4X8]
0
 
 
[ThL5X8]
0
 
 
[ThL6X8]
0
X+2Z = 9  
 
[ThX5Z2]
0
 
 
[ThX7Z]
0
 
 
[ThX9]
0
 
 
[ThLX9]
0
 
 
[ThL2X9]
0
 
 
[ThL3X9]
0
 
 
[ThL4X9]
0
 
 
[ThL5X9]
0
 
 
X+2Z = 10 [ThX4Z3]
0
 
 
[ThX6Z2]
0
 
 
[ThX8Z]
0
 
 
[ThX10]
0
 
 
[ThLX10]
0
 
 
[ThL2X10]
0
 
 
[ThL3X10]
0
 
 
[ThL4X10]
0
 
 
[ThL5X10]
0
X+2Z = 11  
 
[ThX5Z3]
0
 
 
[ThX7Z2]
0
 
 
[ThX9Z]
0
 
 
[ThX11]
0
 
 
[ThLX11]
0
 
 
[ThL2X11]
0
 
 
[ThL3X11]
0
 
 
[ThL4X11]
0
 
 
X+2Z = 12 [ThX4Z4]
0
 
 
[ThX6Z3]
0
 
 
[ThX8Z2]
0
 
 
[ThX10Z]
0
 
 
[ThX12]
0
 
 
[ThLX12]
0
 
 
[ThL2X12]
0
 
 
[ThL3X12]
0
 
 
[ThL4X12]
0

MLXZ grid for thorium (Th) for Q = 1: [ThXxLlZz]+

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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0  
 
[ThL3]+
0
 
 
[ThL4]+
0
 
 
[ThL5]+
0
 
 
[ThL6]+
0
 
 
[ThL7]+
0
 
 
[ThL8]+
0
 
 
[ThL9]+
0
 
 
[ThL10]+
0
 
 
X+2Z = 1 [ThL2X]+
0
 
 
[ThL3X]+
0
 
 
[ThL4X]+
0
 
 
[ThL5X]+
0
 
 
[ThL6X]+
0
 
 
[ThL7X]+
0
 
 
[ThL8X]+
0
 
 
[ThL9X]+
0
 
 
[ThL10X]+
0
X+2Z = 2  
 
[ThL2X2]+
0
 
 
[ThL3X2]+
0
 
 
[ThL4X2]+
0
 
 
[ThL5X2]+
0
 
 
[ThL6X2]+
0
 
 
[ThL7X2]+
0
 
 
[ThL8X2]+
0
 
 
[ThL9X2]+
0
 
 
X+2Z = 3 [ThLX3]+
0
 
 
[ThL2X3]+
0
 
 
[ThL3X3]+
0
 
 
[ThL4X3]+
0
 
 
[ThL5X3]+
40%
 
 
[ThL6X3]+
40%
 
 
[ThL7X3]+
20%
 
 
[ThL8X3]+
0
 
 
[ThL9X3]+
0
X+2Z = 4  
 
[ThLX4]+
0
 
 
[ThL2X4]+
0
 
 
[ThL3X4]+
0
 
 
[ThL4X4]+
0
 
 
[ThL5X4]+
0
 
 
[ThL6X4]+
0
 
 
[ThL7X4]+
0
 
 
[ThL8X4]+
0
 
 
X+2Z = 5 [ThX5]+
0
 
 
[ThLX5]+
0
 
 
[ThL2X5]+
0
 
 
[ThL3X5]+
0
 
 
[ThL4X5]+
0
 
 
[ThL5X5]+
0
 
 
[ThL6X5]+
0
 
 
[ThL7X5]+
0
 
 
[ThL8X5]+
0
X+2Z = 6  
 
[ThX6]+
0
 
 
[ThLX6]+
0
 
 
[ThL2X6]+
0
 
 
[ThL3X6]+
0
 
 
[ThL4X6]+
0
 
 
[ThL5X6]+
0
 
 
[ThL6X6]+
0
 
 
[ThL7X6]+
0
 
 
X+2Z = 7 [ThX5Z]+
0
 
 
[ThX7]+
0
 
 
[ThLX7]+
0
 
 
[ThL2X7]+
0
 
 
[ThL3X7]+
0
 
 
[ThL4X7]+
0
 
 
[ThL5X7]+
0
 
 
[ThL6X7]+
0
 
 
[ThL7X7]+
0
X+2Z = 8  
 
[ThX6Z]+
0
 
 
[ThX8]+
0
 
 
[ThLX8]+
0
 
 
[ThL2X8]+
0
 
 
[ThL3X8]+
0
 
 
[ThL4X8]+
0
 
 
[ThL5X8]+
0
 
 
[ThL6X8]+
0
 
 
X+2Z = 9 [ThX5Z2]+
0
 
 
[ThX7Z]+
0
 
 
[ThX9]+
0
 
 
[ThLX9]+
0
 
 
[ThL2X9]+
0
 
 
[ThL3X9]+
0
 
 
[ThL4X9]+
0
 
 
[ThL5X9]+
0
 
 
[ThL6X9]+
0
X+2Z = 10  
 
[ThX6Z2]+
0
 
 
[ThX8Z]+
0
 
 
[ThX10]+
0
 
 
[ThLX10]+
0
 
 
[ThL2X10]+
0
 
 
[ThL3X10]+
0
 
 
[ThL4X10]+
0
 
 
[ThL5X10]+
0
 
 
X+2Z = 11 [ThX5Z3]+
0
 
 
[ThX7Z2]+
0
 
 
[ThX9Z]+
0
 
 
[ThX11]+
0
 
 
[ThLX11]+
0
 
 
[ThL2X11]+
0
 
 
[ThL3X11]+
0
 
 
[ThL4X11]+
0
 
 
[ThL5X11]+
0
X+2Z = 12  
 
[ThX6Z3]+
0
 
 
[ThX8Z2]+
0
 
 
[ThX10Z]+
0
 
 
[ThX12]+
0
 
 
[ThLX12]+
0
 
 
[ThL2X12]+
0
 
 
[ThL3X12]+
0
 
 
[ThL4X12]+
0
 
 

MLXZ grid for thorium (Th) for Q = 2: [ThXxLlZz]2+

The number of compounds found is 2.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0 [ThL3]2+
0
 
 
[ThL4]2+
0
 
 
[ThL5]2+
0
 
 
[ThL6]2+
0
 
 
[ThL7]2+
0
 
 
[ThL8]2+
0
 
 
[ThL9]2+
0
 
 
[ThL10]2+
0
 
 
[ThL11]2+
0
X+2Z = 1  
 
[ThL3X]2+
0
 
 
[ThL4X]2+
0
 
 
[ThL5X]2+
0
 
 
[ThL6X]2+
0
 
 
[ThL7X]2+
0
 
 
[ThL8X]2+
0
 
 
[ThL9X]2+
0
 
 
[ThL10X]2+
0
 
 
X+2Z = 2 [ThL2X2]2+
0
 
 
[ThL3X2]2+
0
 
 
[ThL4X2]2+
0
 
 
[ThL5X2]2+
0
 
 
[ThL6X2]2+
0
 
 
[ThL7X2]2+
0
 
 
[ThL8X2]2+
0
 
 
[ThL9X2]2+
100%
 
 
[ThL10X2]2+
0
X+2Z = 3  
 
[ThL2X3]2+
0
 
 
[ThL3X3]2+
0
 
 
[ThL4X3]2+
0
 
 
[ThL5X3]2+
0
 
 
[ThL6X3]2+
0
 
 
[ThL7X3]2+
0
 
 
[ThL8X3]2+
0
 
 
[ThL9X3]2+
0
 
 
X+2Z = 4 [ThLX4]2+
0
 
 
[ThL2X4]2+
0
 
 
[ThL3X4]2+
0
 
 
[ThL4X4]2+
0
 
 
[ThL5X4]2+
0
 
 
[ThL6X4]2+
0
 
 
[ThL7X4]2+
0
 
 
[ThL8X4]2+
0
 
 
[ThL9X4]2+
0
X+2Z = 5  
 
[ThLX5]2+
0
 
 
[ThL2X5]2+
0
 
 
[ThL3X5]2+
0
 
 
[ThL4X5]2+
0
 
 
[ThL5X5]2+
0
 
 
[ThL6X5]2+
0
 
 
[ThL7X5]2+
0
 
 
[ThL8X5]2+
0
 
 
X+2Z = 6 [ThX6]2+
0
 
 
[ThLX6]2+
0
 
 
[ThL2X6]2+
0
 
 
[ThL3X6]2+
0
 
 
[ThL4X6]2+
0
 
 
[ThL5X6]2+
0
 
 
[ThL6X6]2+
0
 
 
[ThL7X6]2+
0
 
 
[ThL8X6]2+
0
X+2Z = 7  
 
[ThX7]2+
0
 
 
[ThLX7]2+
0
 
 
[ThL2X7]2+
0
 
 
[ThL3X7]2+
0
 
 
[ThL4X7]2+
0
 
 
[ThL5X7]2+
0
 
 
[ThL6X7]2+
0
 
 
[ThL7X7]2+
0
 
 
X+2Z = 8 [ThX6Z]2+
0
 
 
[ThX8]2+
0
 
 
[ThLX8]2+
0
 
 
[ThL2X8]2+
0
 
 
[ThL3X8]2+
0
 
 
[ThL4X8]2+
0
 
 
[ThL5X8]2+
0
 
 
[ThL6X8]2+
0
 
 
[ThL7X8]2+
0
X+2Z = 9  
 
[ThX7Z]2+
0
 
 
[ThX9]2+
0
 
 
[ThLX9]2+
0
 
 
[ThL2X9]2+
0
 
 
[ThL3X9]2+
0
 
 
[ThL4X9]2+
0
 
 
[ThL5X9]2+
0
 
 
[ThL6X9]2+
0
 
 
X+2Z = 10 [ThX6Z2]2+
0
 
 
[ThX8Z]2+
0
 
 
[ThX10]2+
0
 
 
[ThLX10]2+
0
 
 
[ThL2X10]2+
0
 
 
[ThL3X10]2+
0
 
 
[ThL4X10]2+
0
 
 
[ThL5X10]2+
0
 
 
[ThL6X10]2+
0
X+2Z = 11  
 
[ThX7Z2]2+
0
 
 
[ThX9Z]2+
0
 
 
[ThX11]2+
0
 
 
[ThLX11]2+
0
 
 
[ThL2X11]2+
0
 
 
[ThL3X11]2+
0
 
 
[ThL4X11]2+
0
 
 
[ThL5X11]2+
0
 
 
X+2Z = 12 [ThX6Z3]2+
0
 
 
[ThX8Z2]2+
0
 
 
[ThX10Z]2+
0
 
 
[ThX12]2+
0
 
 
[ThLX12]2+
0
 
 
[ThL2X12]2+
0
 
 
[ThL3X12]2+
0
 
 
[ThL4X12]2+
0
 
 
[ThL5X12]2+
0

MLXZ grid for thorium (Th) for Q = 3: [ThXxLlZz]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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0  
 
[ThL4]3+
0
 
 
[ThL5]3+
0
 
 
[ThL6]3+
0
 
 
[ThL7]3+
0
 
 
[ThL8]3+
0
 
 
[ThL9]3+
0
 
 
[ThL10]3+
0
 
 
[ThL11]3+
0
 
 
X+2Z = 1 [ThL3X]3+
0
 
 
[ThL4X]3+
0
 
 
[ThL5X]3+
0
 
 
[ThL6X]3+
0
 
 
[ThL7X]3+
0
 
 
[ThL8X]3+
0
 
 
[ThL9X]3+
100%
 
 
[ThL10X]3+
0
 
 
[ThL11X]3+
0
X+2Z = 2  
 
[ThL3X2]3+
0
 
 
[ThL4X2]3+
0
 
 
[ThL5X2]3+
0
 
 
[ThL6X2]3+
0
 
 
[ThL7X2]3+
0
 
 
[ThL8X2]3+
0
 
 
[ThL9X2]3+
0
 
 
[ThL10X2]3+
0
 
 
X+2Z = 3 [ThL2X3]3+
0
 
 
[ThL3X3]3+
0
 
 
[ThL4X3]3+
0
 
 
[ThL5X3]3+
0
 
 
[ThL6X3]3+
0
 
 
[ThL7X3]3+
0
 
 
[ThL8X3]3+
0
 
 
[ThL9X3]3+
0
 
 
[ThL10X3]3+
0
X+2Z = 4  
 
[ThL2X4]3+
0
 
 
[ThL3X4]3+
0
 
 
[ThL4X4]3+
0
 
 
[ThL5X4]3+
0
 
 
[ThL6X4]3+
0
 
 
[ThL7X4]3+
0
 
 
[ThL8X4]3+
0
 
 
[ThL9X4]3+
0
 
 
X+2Z = 5 [ThLX5]3+
0
 
 
[ThL2X5]3+
0
 
 
[ThL3X5]3+
0
 
 
[ThL4X5]3+
0
 
 
[ThL5X5]3+
0
 
 
[ThL6X5]3+
0
 
 
[ThL7X5]3+
0
 
 
[ThL8X5]3+
0
 
 
[ThL9X5]3+
0
X+2Z = 6  
 
[ThLX6]3+
0
 
 
[ThL2X6]3+
0
 
 
[ThL3X6]3+
0
 
 
[ThL4X6]3+
0
 
 
[ThL5X6]3+
0
 
 
[ThL6X6]3+
0
 
 
[ThL7X6]3+
0
 
 
[ThL8X6]3+
0
 
 
X+2Z = 7 [ThX7]3+
0
 
 
[ThLX7]3+
0
 
 
[ThL2X7]3+
0
 
 
[ThL3X7]3+
0
 
 
[ThL4X7]3+
0
 
 
[ThL5X7]3+
0
 
 
[ThL6X7]3+
0
 
 
[ThL7X7]3+
0
 
 
[ThL8X7]3+
0
X+2Z = 8  
 
[ThX8]3+
0
 
 
[ThLX8]3+
0
 
 
[ThL2X8]3+
0
 
 
[ThL3X8]3+
0
 
 
[ThL4X8]3+
0
 
 
[ThL5X8]3+
0
 
 
[ThL6X8]3+
0
 
 
[ThL7X8]3+
0
 
 
X+2Z = 9 [ThX7Z]3+
0
 
 
[ThX9]3+
0
 
 
[ThLX9]3+
0
 
 
[ThL2X9]3+
0
 
 
[ThL3X9]3+
0
 
 
[ThL4X9]3+
0
 
 
[ThL5X9]3+
0
 
 
[ThL6X9]3+
0
 
 
[ThL7X9]3+
0
X+2Z = 10  
 
[ThX8Z]3+
0
 
 
[ThX10]3+
0
 
 
[ThLX10]3+
0
 
 
[ThL2X10]3+
0
 
 
[ThL3X10]3+
0
 
 
[ThL4X10]3+
0
 
 
[ThL5X10]3+
0
 
 
[ThL6X10]3+
0
 
 
X+2Z = 11 [ThX7Z2]3+
0
 
 
[ThX9Z]3+
0
 
 
[ThX11]3+
0
 
 
[ThLX11]3+
0
 
 
[ThL2X11]3+
0
 
 
[ThL3X11]3+
0
 
 
[ThL4X11]3+
0
 
 
[ThL5X11]3+
0
 
 
[ThL6X11]3+
0
X+2Z = 12  
 
[ThX8Z2]3+
0
 
 
[ThX10Z]3+
0
 
 
[ThX12]3+
0
 
 
[ThLX12]3+
0
 
 
[ThL2X12]3+
0
 
 
[ThL3X12]3+
0
 
 
[ThL4X12]3+
0
 
 
[ThL5X12]3+
0
 
 

MLXZ grid for thorium (Th) for Q = 4: [ThXxLlZz]4+

The number of compounds found is 1.

The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ] 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 thorium with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0 [ThL4]4+
0
 
 
[ThL5]4+
0
 
 
[ThL6]4+
0
 
 
[ThL7]4+
0
 
 
[ThL8]4+
0
 
 
[ThL9]4+
100%
 
 
[ThL10]4+
0
 
 
[ThL11]4+
0
 
 
[ThL12]4+
0
X+2Z = 1  
 
[ThL4X]4+
0
 
 
[ThL5X]4+
0
 
 
[ThL6X]4+
0
 
 
[ThL7X]4+
0
 
 
[ThL8X]4+
0
 
 
[ThL9X]4+
0
 
 
[ThL10X]4+
0
 
 
[ThL11X]4+
0
 
 
X+2Z = 2 [ThL3X2]4+
0
 
 
[ThL4X2]4+
0
 
 
[ThL5X2]4+
0
 
 
[ThL6X2]4+
0
 
 
[ThL7X2]4+
0
 
 
[ThL8X2]4+
0
 
 
[ThL9X2]4+
0
 
 
[ThL10X2]4+
0
 
 
[ThL11X2]4+
0
X+2Z = 3  
 
[ThL3X3]4+
0
 
 
[ThL4X3]4+
0
 
 
[ThL5X3]4+
0
 
 
[ThL6X3]4+
0
 
 
[ThL7X3]4+
0
 
 
[ThL8X3]4+
0
 
 
[ThL9X3]4+
0
 
 
[ThL10X3]4+
0
 
 
X+2Z = 4 [ThL2X4]4+
0
 
 
[ThL3X4]4+
0
 
 
[ThL4X4]4+
0
 
 
[ThL5X4]4+
0
 
 
[ThL6X4]4+
0
 
 
[ThL7X4]4+
0
 
 
[ThL8X4]4+
0
 
 
[ThL9X4]4+
0
 
 
[ThL10X4]4+
0
X+2Z = 5  
 
[ThL2X5]4+
0
 
 
[ThL3X5]4+
0
 
 
[ThL4X5]4+
0
 
 
[ThL5X5]4+
0
 
 
[ThL6X5]4+
0
 
 
[ThL7X5]4+
0
 
 
[ThL8X5]4+
0
 
 
[ThL9X5]4+
0
 
 
X+2Z = 6 [ThLX6]4+
0
 
 
[ThL2X6]4+
0
 
 
[ThL3X6]4+
0
 
 
[ThL4X6]4+
0
 
 
[ThL5X6]4+
0
 
 
[ThL6X6]4+
0
 
 
[ThL7X6]4+
0
 
 
[ThL8X6]4+
0
 
 
[ThL9X6]4+
0
X+2Z = 7  
 
[ThLX7]4+
0
 
 
[ThL2X7]4+
0
 
 
[ThL3X7]4+
0
 
 
[ThL4X7]4+
0
 
 
[ThL5X7]4+
0
 
 
[ThL6X7]4+
0
 
 
[ThL7X7]4+
0
 
 
[ThL8X7]4+
0
 
 
X+2Z = 8 [ThX8]4+
0
 
 
[ThLX8]4+
0
 
 
[ThL2X8]4+
0
 
 
[ThL3X8]4+
0
 
 
[ThL4X8]4+
0
 
 
[ThL5X8]4+
0
 
 
[ThL6X8]4+
0
 
 
[ThL7X8]4+
0
 
 
[ThL8X8]4+
0
X+2Z = 9  
 
[ThX9]4+
0
 
 
[ThLX9]4+
0
 
 
[ThL2X9]4+
0
 
 
[ThL3X9]4+
0
 
 
[ThL4X9]4+
0
 
 
[ThL5X9]4+
0
 
 
[ThL6X9]4+
0
 
 
[ThL7X9]4+
0
 
 
X+2Z = 10 [ThX8Z]4+
0
 
 
[ThX10]4+
0
 
 
[ThLX10]4+
0
 
 
[ThL2X10]4+
0
 
 
[ThL3X10]4+
0
 
 
[ThL4X10]4+
0
 
 
[ThL5X10]4+
0
 
 
[ThL6X10]4+
0
 
 
[ThL7X10]4+
0
X+2Z = 11  
 
[ThX9Z]4+
0
 
 
[ThX11]4+
0
 
 
[ThLX11]4+
0
 
 
[ThL2X11]4+
0
 
 
[ThL3X11]4+
0
 
 
[ThL4X11]4+
0
 
 
[ThL5X11]4+
0
 
 
[ThL6X11]4+
0
 
 
X+2Z = 12 [ThX8Z2]4+
0
 
 
[ThX10Z]4+
0
 
 
[ThX12]4+
0
 
 
[ThLX12]4+
0
 
 
[ThL2X12]4+
0
 
 
[ThL3X12]4+
0
 
 
[ThL4X12]4+
0
 
 
[ThL5X12]4+
0
 
 
[ThL6X12]4+
0

MLXZ grid for rutherfordium (Rf) for Q = -6: [RfXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = -5: [RfXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = -4: [RfXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = -3: [RfXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = -2: [RfXxLlZz]2-

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = -1: [RfXxLlZz]-

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = 0: [RfXxLlZz]

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = 1: [RfXxLlZz]+

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = 2: [RfXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = 3: [RfXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for rutherfordium (Rf) for Q = 4: [RfXxLlZz]4+

The number of compounds found is 0.