MLXZQ± Grid

MLXZq± grid for lutetium (Lu) for Q = -6: [LuXxLlZz]6-

The number of compounds found is 0.

MLXZq± grid for lutetium (Lu) for Q = -5: [LuXxLlZz]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 lutetium with that [MLXZ] classification.

EN➝ 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [LuZ]5-
0

[Lu]5-
0

[LuL]5-
0

[LuL2]5-
0

[LuL3]5-
0

[LuL4]5-
0

[LuL5]5-
0

[LuL6]5-
0
X+2Z = 1

[LuZ]5-
0

[LuX]5-
0

[LuLX]5-
0

[LuL2X]5-
0

[LuL3X]5-
0

[LuL4X]5-
0

[LuL5X]5-
0

X+2Z = 2 [LuZ2]5-
0

[LuZ]5-
0

[LuX2]5-
0

[LuLX2]5-
0

[LuL2X2]5-
0

[LuL3X2]5-
0

[LuL4X2]5-
0

[LuL5X2]5-
0
X+2Z = 3

[LuZ2]5-
0

[LuXZ]5-
0

[LuX3]5-
0

[LuLX3]5-
0

[LuL2X3]5-
0

[LuL3X3]5-
0

[LuL4X3]5-
0

X+2Z = 4 [LuZ3]5-
0

[LuZ2]5-
0

[LuX2Z]5-
0

[LuX4]5-
0

[LuLX4]5-
0

[LuL2X4]5-
0

[LuL3X4]5-
0

[LuL4X4]5-
0
X+2Z = 5

[LuZ3]5-
0

[LuXZ2]5-
0

[LuX3Z]5-
0

[LuX5]5-
0

[LuLX5]5-
0

[LuL2X5]5-
0

[LuL3X5]5-
0

X+2Z = 6 [LuZ4]5-
0

[LuZ3]5-
0

[LuX2Z2]5-
0

[LuX4Z]5-
0

[LuX6]5-
0

[LuLX6]5-
0

[LuL2X6]5-
0

[LuL3X6]5-
0
X+2Z = 7

[LuZ4]5-
0

[LuXZ3]5-
0

[LuX3Z2]5-
0

[LuX5Z]5-
0

[LuX7]5-
0

[LuLX7]5-
0

[LuL2X7]5-
0

X+2Z = 8 [LuZ5]5-
0

[LuZ4]5-
0

[LuX2Z3]5-
0

[LuX4Z2]5-
0

[LuX6Z]5-
0

[LuX8]5-
100%

[LuLX8]5-
0

[LuL2X8]5-
0
X+2Z = 9

[LuZ5]5-
0

[LuXZ4]5-
0

[LuX3Z3]5-
0

[LuX5Z2]5-
0

[LuX7Z]5-
0

[LuX9]5-
0

[LuLX9]5-
0

X+2Z = 10 [LuZ6]5-
0

[LuZ5]5-
0

[LuX2Z4]5-
0

[LuX4Z3]5-
0

[LuX6Z2]5-
0

[LuX8Z]5-
0

[LuX10]5-
0

[LuLX10]5-
0
X+2Z = 11

[LuZ6]5-
0

[LuXZ5]5-
0

[LuX3Z4]5-
0

[LuX5Z3]5-
0

[LuX7Z2]5-
0

[LuX9Z]5-
0

[LuX11]5-
0

X+2Z = 12 [LuZ7]5-
0

[LuZ6]5-
0

[LuX2Z5]5-
0

[LuX4Z4]5-
0

[LuX6Z3]5-
0

[LuX8Z2]5-
0

[LuX10Z]5-
0

[LuX12]5-
0

MLXZq± grid for lutetium (Lu) for Q = -4: [LuXxLlZz]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 lutetium with that [MLXZ] classification.

EN➝ 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0

[Lu]4-
0

[LuL]4-
0

[LuL2]4-
0

[LuL3]4-
0

[LuL4]4-
0

[LuL5]4-
0

[LuL6]4-
0

X+2Z = 1 [LuZ]4-
0

[LuX]4-
0

[LuLX]4-
0

[LuL2X]4-
0

[LuL3X]4-
0

[LuL4X]4-
0

[LuL5X]4-
0

[LuL6X]4-
0
X+2Z = 2

[LuZ]4-
0

[LuX2]4-
0

[LuLX2]4-
0

[LuL2X2]4-
0

[LuL3X2]4-
0

[LuL4X2]4-
0

[LuL5X2]4-
0

X+2Z = 3 [LuZ2]4-
0

[LuXZ]4-
0

[LuX3]4-
0

[LuLX3]4-
0

[LuL2X3]4-
0

[LuL3X3]4-
0

[LuL4X3]4-
0

[LuL5X3]4-
0
X+2Z = 4

[LuZ2]4-
0

[LuX2Z]4-
0

[LuX4]4-
0

[LuLX4]4-
0

[LuL2X4]4-
0

[LuL3X4]4-
0

[LuL4X4]4-
0

X+2Z = 5 [LuZ3]4-
0

[LuXZ2]4-
0

[LuX3Z]4-
0

[LuX5]4-
0

[LuLX5]4-
0

[LuL2X5]4-
0

[LuL3X5]4-
0

[LuL4X5]4-
0
X+2Z = 6

[LuZ3]4-
0

[LuX2Z2]4-
0

[LuX4Z]4-
0

[LuX6]4-
0

[LuLX6]4-
0

[LuL2X6]4-
0

[LuL3X6]4-
0

X+2Z = 7 [LuZ4]4-
0

[LuXZ3]4-
0

[LuX3Z2]4-
0

[LuX5Z]4-
0

[LuX7]4-
100%

[LuLX7]4-
0

[LuL2X7]4-
0

[LuL3X7]4-
0
X+2Z = 8

[LuZ4]4-
0

[LuX2Z3]4-
0

[LuX4Z2]4-
0

[LuX6Z]4-
0

[LuX8]4-
0

[LuLX8]4-
0

[LuL2X8]4-
0

X+2Z = 9 [LuZ5]4-
0

[LuXZ4]4-
0

[LuX3Z3]4-
0

[LuX5Z2]4-
0

[LuX7Z]4-
0

[LuX9]4-
0

[LuLX9]4-
0

[LuL2X9]4-
0
X+2Z = 10

[LuZ5]4-
0

[LuX2Z4]4-
0

[LuX4Z3]4-
0

[LuX6Z2]4-
0

[LuX8Z]4-
0

[LuX10]4-
0

[LuLX10]4-
0

X+2Z = 11 [LuZ6]4-
0

[LuXZ5]4-
0

[LuX3Z4]4-
0

[LuX5Z3]4-
0

[LuX7Z2]4-
0

[LuX9Z]4-
0

[LuX11]4-
0

[LuLX11]4-
0
X+2Z = 12

[LuZ6]4-
0

[LuX2Z5]4-
0

[LuX4Z4]4-
0

[LuX6Z3]4-
0

[LuX8Z2]4-
0

[LuX10Z]4-
0

[LuX12]4-
0

MLXZq± grid for lutetium (Lu) for Q = -3: [LuXxLlZz]3-

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 lutetium with that [MLXZ] classification.

EN➝ 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [Lu]3-
0

[LuL]3-
0

[LuL2]3-
0

[LuL3]3-
0

[LuL4]3-
0

[LuL5]3-
0

[LuL6]3-
0

[LuL7]3-
0
X+2Z = 1

[LuX]3-
0

[LuLX]3-
0

[LuL2X]3-
0

[LuL3X]3-
0

[LuL4X]3-
0

[LuL5X]3-
0

[LuL6X]3-
0

X+2Z = 2 [LuZ]3-
0

[LuX2]3-
0

[LuLX2]3-
0

[LuL2X2]3-
0

[LuL3X2]3-
0

[LuL4X2]3-
0

[LuL5X2]3-
0

[LuL6X2]3-
0
X+2Z = 3

[LuXZ]3-
0

[LuX3]3-
0

[LuLX3]3-
0

[LuL2X3]3-
0

[LuL3X3]3-
0

[LuL4X3]3-
0

[LuL5X3]3-
0

X+2Z = 4 [LuZ2]3-
0

[LuX2Z]3-
0

[LuX4]3-
0

[LuLX4]3-
0

[LuL2X4]3-
0

[LuL3X4]3-
0

[LuL4X4]3-
0

[LuL5X4]3-
0
X+2Z = 5

[LuXZ2]3-
0

[LuX3Z]3-
0

[LuX5]3-
0

[LuLX5]3-
0

[LuL2X5]3-
0

[LuL3X5]3-
0

[LuL4X5]3-
0

X+2Z = 6 [LuZ3]3-
0

[LuX2Z2]3-
0

[LuX4Z]3-
0

[LuX6]3-
40%

[LuLX6]3-
0

[LuL2X6]3-
20%

[LuL3X6]3-
40%

[LuL4X6]3-
0
X+2Z = 7

[LuXZ3]3-
0

[LuX3Z2]3-
0

[LuX5Z]3-
0

[LuX7]3-
0

[LuLX7]3-
0

[LuL2X7]3-
0

[LuL3X7]3-
0

X+2Z = 8 [LuZ4]3-
0

[LuX2Z3]3-
0

[LuX4Z2]3-
0

[LuX6Z]3-
0

[LuX8]3-
0

[LuLX8]3-
0

[LuL2X8]3-
0

[LuL3X8]3-
0
X+2Z = 9

[LuXZ4]3-
0

[LuX3Z3]3-
0

[LuX5Z2]3-
0

[LuX7Z]3-
0

[LuX9]3-
0

[LuLX9]3-
0

[LuL2X9]3-
0

X+2Z = 10 [LuZ5]3-
0

[LuX2Z4]3-
0

[LuX4Z3]3-
0

[LuX6Z2]3-
0

[LuX8Z]3-
0

[LuX10]3-
0

[LuLX10]3-
0

[LuL2X10]3-
0
X+2Z = 11

[LuXZ5]3-
0

[LuX3Z4]3-
0

[LuX5Z3]3-
0

[LuX7Z2]3-
0

[LuX9Z]3-
0

[LuX11]3-
0

[LuLX11]3-
0

X+2Z = 12 [LuZ6]3-
0

[LuX2Z5]3-
0

[LuX4Z4]3-
0

[LuX6Z3]3-
0

[LuX8Z2]3-
0

[LuX10Z]3-
0

[LuX12]3-
0

[LuLX12]3-
0

MLXZq± grid for lutetium (Lu) for Q = -2: [LuXxLlZz]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 lutetium with that [MLXZ] classification.

EN➝ 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0

[LuL]2-
0

[LuL2]2-
0

[LuL3]2-
0

[LuL4]2-
0

[LuL5]2-
0

[LuL6]2-
0

[LuL7]2-
0

X+2Z = 1 [LuX]2-
0

[LuLX]2-
0

[LuL2X]2-
0

[LuL3X]2-
0

[LuL4X]2-
0

[LuL5X]2-
0

[LuL6X]2-
0

[LuL7X]2-
0
X+2Z = 2

[LuX2]2-
0

[LuLX2]2-
0

[LuL2X2]2-
0

[LuL3X2]2-
0

[LuL4X2]2-
0

[LuL5X2]2-
0

[LuL6X2]2-
0

X+2Z = 3 [LuXZ]2-
0

[LuX3]2-
0

[LuLX3]2-
0

[LuL2X3]2-
0

[LuL3X3]2-
0

[LuL4X3]2-
0

[LuL5X3]2-
0

[LuL6X3]2-
0
X+2Z = 4

[LuX2Z]2-
0

[LuX4]2-
0

[LuLX4]2-
0

[LuL2X4]2-
0

[LuL3X4]2-
0

[LuL4X4]2-
0

[LuL5X4]2-
0

X+2Z = 5 [LuXZ2]2-
0

[LuX3Z]2-
0

[LuX5]2-
0

[LuLX5]2-
0

[LuL2X5]2-
50%

[LuL3X5]2-
0

[LuL4X5]2-
0

[LuL5X5]2-
50%
X+2Z = 6

[LuX2Z2]2-
0

[LuX4Z]2-
0

[LuX6]2-
0

[LuLX6]2-
0

[LuL2X6]2-
0

[LuL3X6]2-
0

[LuL4X6]2-
0

X+2Z = 7 [LuXZ3]2-
0

[LuX3Z2]2-
0

[LuX5Z]2-
0

[LuX7]2-
0

[LuLX7]2-
0

[LuL2X7]2-
0

[LuL3X7]2-
0

[LuL4X7]2-
0
X+2Z = 8

[LuX2Z3]2-
0

[LuX4Z2]2-
0

[LuX6Z]2-
0

[LuX8]2-
0

[LuLX8]2-
0

[LuL2X8]2-
0

[LuL3X8]2-
0

X+2Z = 9 [LuXZ4]2-
0

[LuX3Z3]2-
0

[LuX5Z2]2-
0

[LuX7Z]2-
0

[LuX9]2-
0

[LuLX9]2-
0

[LuL2X9]2-
0

[LuL3X9]2-
0
X+2Z = 10

[LuX2Z4]2-
0

[LuX4Z3]2-
0

[LuX6Z2]2-
0

[LuX8Z]2-
0

[LuX10]2-
0

[LuLX10]2-
0

[LuL2X10]2-
0

X+2Z = 11 [LuXZ5]2-
0

[LuX3Z4]2-
0

[LuX5Z3]2-
0

[LuX7Z2]2-
0

[LuX9Z]2-
0

[LuX11]2-
0

[LuLX11]2-
0

[LuL2X11]2-
0
X+2Z = 12

[LuX2Z5]2-
0

[LuX4Z4]2-
0

[LuX6Z3]2-
0

[LuX8Z2]2-
0

[LuX10Z]2-
0

[LuX12]2-
0

[LuLX12]2-
0

MLXZq± grid for lutetium (Lu) for Q = -1: [LuXxLlZz]-

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 lutetium with that [MLXZ] classification.

EN➝ 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [LuL]-
0

[LuL2]-
0

[LuL3]-
0

[LuL4]-
0

[LuL5]-
0

[LuL6]-
0

[LuL7]-
0

[LuL8]-
0
X+2Z = 1

[LuLX]-
0

[LuL2X]-
0

[LuL3X]-
0

[LuL4X]-
0

[LuL5X]-
0

[LuL6X]-
0

[LuL7X]-
0

X+2Z = 2 [LuX2]-
0

[LuLX2]-
0

[LuL2X2]-
0

[LuL3X2]-
0

[LuL4X2]-
0

[LuL5X2]-
0

[LuL6X2]-
0

[LuL7X2]-
0
X+2Z = 3

[LuX3]-
0

[LuLX3]-
0

[LuL2X3]-
0

[LuL3X3]-
0

[LuL4X3]-
0

[LuL5X3]-
0

[LuL6X3]-
0

X+2Z = 4 [LuX2Z]-
0

[LuX4]-
6%

[LuLX4]-
0

[LuL2X4]-
24%

[LuL3X4]-
0

[LuL4X4]-
65%

[LuL5X4]-
6%

[LuL6X4]-
0
X+2Z = 5

[LuX3Z]-
0

[LuX5]-
0

[LuLX5]-
0

[LuL2X5]-
0

[LuL3X5]-
0

[LuL4X5]-
0

[LuL5X5]-
0

X+2Z = 6 [LuX2Z2]-
0

[LuX4Z]-
0

[LuX6]-
0

[LuLX6]-
0

[LuL2X6]-
0

[LuL3X6]-
0

[LuL4X6]-
0

[LuL5X6]-
0
X+2Z = 7

[LuX3Z2]-
0

[LuX5Z]-
0

[LuX7]-
0

[LuLX7]-
0

[LuL2X7]-
0

[LuL3X7]-
0

[LuL4X7]-
0

X+2Z = 8 [LuX2Z3]-
0

[LuX4Z2]-
0

[LuX6Z]-
0

[LuX8]-
0

[LuLX8]-
0

[LuL2X8]-
0

[LuL3X8]-
0

[LuL4X8]-
0
X+2Z = 9

[LuX3Z3]-
0

[LuX5Z2]-
0

[LuX7Z]-
0

[LuX9]-
0

[LuLX9]-
0

[LuL2X9]-
0

[LuL3X9]-
0

X+2Z = 10 [LuX2Z4]-
0

[LuX4Z3]-
0

[LuX6Z2]-
0

[LuX8Z]-
0

[LuX10]-
0

[LuLX10]-
0

[LuL2X10]-
0

[LuL3X10]-
0
X+2Z = 11

[LuX3Z4]-
0

[LuX5Z3]-
0

[LuX7Z2]-
0

[LuX9Z]-
0

[LuX11]-
0

[LuLX11]-
0

[LuL2X11]-
0

X+2Z = 12 [LuX2Z5]-
0

[LuX4Z4]-
0

[LuX6Z3]-
0

[LuX8Z2]-
0

[LuX10Z]-
0

[LuX12]-
0

[LuLX12]-
0

[LuL2X12]-
0

MLXZq± grid for lutetium (Lu) for Q = 0: [LuXxLlZz]

The number of compounds found is 101.

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 lutetium with that [MLXZ] classification.

EN➝ 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0

[LuL2]
0

[LuL3]
0

[LuL4]
0

[LuL5]
0

[LuL6]
0

[LuL7]
0

[LuL8]
0

X+2Z = 1 [LuLX]
0

[LuL2X]
0

[LuL3X]
0

[LuL4X]
0

[LuL5X]
0

[LuL6X]
0

[LuL7X]
0

[LuL8X]
0
X+2Z = 2

[LuLX2]
0

[LuL2X2]
0

[LuL3X2]
0

[LuL4X2]
0

[LuL5X2]
0

[LuL6X2]
0

[LuL7X2]
0

X+2Z = 3 [LuX3]
4%

[LuLX3]
0

[LuL2X3]
6%

[LuL3X3]
15%

[LuL4X3]
20%

[LuL5X3]
34%

[LuL6X3]
19%

[LuL7X3]
3%
X+2Z = 4

[LuX4]
0

[LuLX4]
0

[LuL2X4]
0

[LuL3X4]
0

[LuL4X4]
0

[LuL5X4]
0

[LuL6X4]
0

X+2Z = 5 [LuX3Z]
0

[LuX5]
0

[LuLX5]
0

[LuL2X5]
0

[LuL3X5]
0

[LuL4X5]
0

[LuL5X5]
0

[LuL6X5]
0
X+2Z = 6

[LuX4Z]
0

[LuX6]
0

[LuLX6]
0

[LuL2X6]
0

[LuL3X6]
0

[LuL4X6]
0

[LuL5X6]
0

X+2Z = 7 [LuX3Z2]
0

[LuX5Z]
0

[LuX7]
0

[LuLX7]
0

[LuL2X7]
0

[LuL3X7]
0

[LuL4X7]
0

[LuL5X7]
0
X+2Z = 8

[LuX4Z2]
0

[LuX6Z]
0

[LuX8]
0

[LuLX8]
0

[LuL2X8]
0

[LuL3X8]
0

[LuL4X8]
0

X+2Z = 9 [LuX3Z3]
0

[LuX5Z2]
0

[LuX7Z]
0

[LuX9]
0

[LuLX9]
0

[LuL2X9]
0

[LuL3X9]
0

[LuL4X9]
0
X+2Z = 10

[LuX4Z3]
0

[LuX6Z2]
0

[LuX8Z]
0

[LuX10]
0

[LuLX10]
0

[LuL2X10]
0

[LuL3X10]
0

X+2Z = 11 [LuX3Z4]
0

[LuX5Z3]
0

[LuX7Z2]
0

[LuX9Z]
0

[LuX11]
0

[LuLX11]
0

[LuL2X11]
0

[LuL3X11]
0
X+2Z = 12

[LuX4Z4]
0

[LuX6Z3]
0

[LuX8Z2]
0

[LuX10Z]
0

[LuX12]
0

[LuLX12]
0

[LuL2X12]
0

MLXZq± grid for lutetium (Lu) for Q = 1: [LuXxLlZz]+

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 lutetium with that [MLXZ] classification.

EN➝ 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [LuL2]+
0

[LuL3]+
0

[LuL4]+
0

[LuL5]+
0

[LuL6]+
0

[LuL7]+
0

[LuL8]+
0

[LuL9]+
0
X+2Z = 1

[LuL2X]+
0

[LuL3X]+
0

[LuL4X]+
0

[LuL5X]+
0

[LuL6X]+
0

[LuL7X]+
0

[LuL8X]+
0

X+2Z = 2 [LuLX2]+
0

[LuL2X2]+
0

[LuL3X2]+
0

[LuL4X2]+
17%

[LuL5X2]+
39%

[LuL6X2]+
33%

[LuL7X2]+
11%

[LuL8X2]+
0
X+2Z = 3

[LuLX3]+
0

[LuL2X3]+
0

[LuL3X3]+
0

[LuL4X3]+
0

[LuL5X3]+
0

[LuL6X3]+
0

[LuL7X3]+
0

X+2Z = 4 [LuX4]+
0

[LuLX4]+
0

[LuL2X4]+
0

[LuL3X4]+
0

[LuL4X4]+
0

[LuL5X4]+
0

[LuL6X4]+
0

[LuL7X4]+
0
X+2Z = 5

[LuX5]+
0

[LuLX5]+
0

[LuL2X5]+
0

[LuL3X5]+
0

[LuL4X5]+
0

[LuL5X5]+
0

[LuL6X5]+
0

X+2Z = 6 [LuX4Z]+
0

[LuX6]+
0

[LuLX6]+
0

[LuL2X6]+
0

[LuL3X6]+
0

[LuL4X6]+
0

[LuL5X6]+
0

[LuL6X6]+
0
X+2Z = 7

[LuX5Z]+
0

[LuX7]+
0

[LuLX7]+
0

[LuL2X7]+
0

[LuL3X7]+
0

[LuL4X7]+
0

[LuL5X7]+
0

X+2Z = 8 [LuX4Z2]+
0

[LuX6Z]+
0

[LuX8]+
0

[LuLX8]+
0

[LuL2X8]+
0

[LuL3X8]+
0

[LuL4X8]+
0

[LuL5X8]+
0
X+2Z = 9

[LuX5Z2]+
0

[LuX7Z]+
0

[LuX9]+
0

[LuLX9]+
0

[LuL2X9]+
0

[LuL3X9]+
0

[LuL4X9]+
0

X+2Z = 10 [LuX4Z3]+
0

[LuX6Z2]+
0

[LuX8Z]+
0

[LuX10]+
0

[LuLX10]+
0

[LuL2X10]+
0

[LuL3X10]+
0

[LuL4X10]+
0
X+2Z = 11

[LuX5Z3]+
0

[LuX7Z2]+
0

[LuX9Z]+
0

[LuX11]+
0

[LuLX11]+
0

[LuL2X11]+
0

[LuL3X11]+
0

X+2Z = 12 [LuX4Z4]+
0

[LuX6Z3]+
0

[LuX8Z2]+
0

[LuX10Z]+
0

[LuX12]+
0

[LuLX12]+
0

[LuL2X12]+
0

[LuL3X12]+
0

MLXZq± grid for lutetium (Lu) for Q = 2: [LuXxLlZz]2+

The number of compounds found is 7.

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

EN➝ 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0

[LuL3]2+
0

[LuL4]2+
0

[LuL5]2+
0

[LuL6]2+
0

[LuL7]2+
0

[LuL8]2+
0

[LuL9]2+
0

X+2Z = 1 [LuL2X]2+
0

[LuL3X]2+
0

[LuL4X]2+
0

[LuL5X]2+
14%

[LuL6X]2+
14%

[LuL7X]2+
57%

[LuL8X]2+
14%

[LuL9X]2+
0
X+2Z = 2

[LuL2X2]2+
0

[LuL3X2]2+
0

[LuL4X2]2+
0

[LuL5X2]2+
0

[LuL6X2]2+
0

[LuL7X2]2+
0

[LuL8X2]2+
0

X+2Z = 3 [LuLX3]2+
0

[LuL2X3]2+
0

[LuL3X3]2+
0

[LuL4X3]2+
0

[LuL5X3]2+
0

[LuL6X3]2+
0

[LuL7X3]2+
0

[LuL8X3]2+
0
X+2Z = 4

[LuLX4]2+
0

[LuL2X4]2+
0

[LuL3X4]2+
0

[LuL4X4]2+
0

[LuL5X4]2+
0

[LuL6X4]2+
0

[LuL7X4]2+
0

X+2Z = 5 [LuX5]2+
0

[LuLX5]2+
0

[LuL2X5]2+
0

[LuL3X5]2+
0

[LuL4X5]2+
0

[LuL5X5]2+
0

[LuL6X5]2+
0

[LuL7X5]2+
0
X+2Z = 6

[LuX6]2+
0

[LuLX6]2+
0

[LuL2X6]2+
0

[LuL3X6]2+
0

[LuL4X6]2+
0

[LuL5X6]2+
0

[LuL6X6]2+
0

X+2Z = 7 [LuX5Z]2+
0

[LuX7]2+
0

[LuLX7]2+
0

[LuL2X7]2+
0

[LuL3X7]2+
0

[LuL4X7]2+
0

[LuL5X7]2+
0

[LuL6X7]2+
0
X+2Z = 8

[LuX6Z]2+
0

[LuX8]2+
0

[LuLX8]2+
0

[LuL2X8]2+
0

[LuL3X8]2+
0

[LuL4X8]2+
0

[LuL5X8]2+
0

X+2Z = 9 [LuX5Z2]2+
0

[LuX7Z]2+
0

[LuX9]2+
0

[LuLX9]2+
0

[LuL2X9]2+
0

[LuL3X9]2+
0

[LuL4X9]2+
0

[LuL5X9]2+
0
X+2Z = 10

[LuX6Z2]2+
0

[LuX8Z]2+
0

[LuX10]2+
0

[LuLX10]2+
0

[LuL2X10]2+
0

[LuL3X10]2+
0

[LuL4X10]2+
0

X+2Z = 11 [LuX5Z3]2+
0

[LuX7Z2]2+
0

[LuX9Z]2+
0

[LuX11]2+
0

[LuLX11]2+
0

[LuL2X11]2+
0

[LuL3X11]2+
0

[LuL4X11]2+
0
X+2Z = 12

[LuX6Z3]2+
0

[LuX8Z2]2+
0

[LuX10Z]2+
0

[LuX12]2+
0

[LuLX12]2+
0

[LuL2X12]2+
0

[LuL3X12]2+
0

MLXZq± grid for lutetium (Lu) for Q = 3: [LuXxLlZz]3+

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 lutetium with that [MLXZ] classification.

EN➝ 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [LuL3]3+
0

[LuL4]3+
0

[LuL5]3+
0

[LuL6]3+
12%

[LuL7]3+
12%

[LuL8]3+
59%

[LuL9]3+
18%

[LuL10]3+
0
X+2Z = 1

[LuL3X]3+
0

[LuL4X]3+
0

[LuL5X]3+
0

[LuL6X]3+
0

[LuL7X]3+
0

[LuL8X]3+
0

[LuL9X]3+
0

X+2Z = 2 [LuL2X2]3+
0

[LuL3X2]3+
0

[LuL4X2]3+
0

[LuL5X2]3+
0

[LuL6X2]3+
0

[LuL7X2]3+
0

[LuL8X2]3+
0

[LuL9X2]3+
0
X+2Z = 3

[LuL2X3]3+
0

[LuL3X3]3+
0

[LuL4X3]3+
0

[LuL5X3]3+
0

[LuL6X3]3+
0

[LuL7X3]3+
0

[LuL8X3]3+
0

X+2Z = 4 [LuLX4]3+
0

[LuL2X4]3+
0

[LuL3X4]3+
0

[LuL4X4]3+
0

[LuL5X4]3+
0

[LuL6X4]3+
0

[LuL7X4]3+
0

[LuL8X4]3+
0
X+2Z = 5

[LuLX5]3+
0

[LuL2X5]3+
0

[LuL3X5]3+
0

[LuL4X5]3+
0

[LuL5X5]3+
0

[LuL6X5]3+
0

[LuL7X5]3+
0

X+2Z = 6 [LuX6]3+
0

[LuLX6]3+
0

[LuL2X6]3+
0

[LuL3X6]3+
0

[LuL4X6]3+
0

[LuL5X6]3+
0

[LuL6X6]3+
0

[LuL7X6]3+
0
X+2Z = 7

[LuX7]3+
0

[LuLX7]3+
0

[LuL2X7]3+
0

[LuL3X7]3+
0

[LuL4X7]3+
0

[LuL5X7]3+
0

[LuL6X7]3+
0

X+2Z = 8 [LuX6Z]3+
0

[LuX8]3+
0

[LuLX8]3+
0

[LuL2X8]3+
0

[LuL3X8]3+
0

[LuL4X8]3+
0

[LuL5X8]3+
0

[LuL6X8]3+
0
X+2Z = 9

[LuX7Z]3+
0

[LuX9]3+
0

[LuLX9]3+
0

[LuL2X9]3+
0

[LuL3X9]3+
0

[LuL4X9]3+
0

[LuL5X9]3+
0

X+2Z = 10 [LuX6Z2]3+
0

[LuX8Z]3+
0

[LuX10]3+
0

[LuLX10]3+
0

[LuL2X10]3+
0

[LuL3X10]3+
0

[LuL4X10]3+
0

[LuL5X10]3+
0
X+2Z = 11

[LuX7Z2]3+
0

[LuX9Z]3+
0

[LuX11]3+
0

[LuLX11]3+
0

[LuL2X11]3+
0

[LuL3X11]3+
0

[LuL4X11]3+
0

X+2Z = 12 [LuX6Z3]3+
0

[LuX8Z2]3+
0

[LuX10Z]3+
0

[LuX12]3+
0

[LuLX12]3+
0

[LuL2X12]3+
0

[LuL3X12]3+
0

[LuL4X12]3+
0

MLXZq± grid for lutetium (Lu) for Q = 4: [LuXxLlZz]4+

The number of compounds found is 0.