# MLXZQ± Grid

## MLXZq± grid for hydrogen (H) for Q = -6: [HXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for hydrogen (H) for Q = -5: [HXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for hydrogen (H) for Q = -4: [HXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for hydrogen (H) for Q = -3: [HXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for hydrogen (H) for Q = -2: [HXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for hydrogen (H) for Q = -1: [HXxLlZz]-

The number of compounds found is 13.

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 hydrogen with that [MLXZ] classification.

EN➝ 2
X+2Z = 0 [H]-
0
X+2Z = 1

X+2Z = 2 [HZ]-
100%
X+2Z = 3

X+2Z = 4 [HZ2]-
0
X+2Z = 5

X+2Z = 6 [HZ3]-
0
X+2Z = 7

X+2Z = 8 [HZ4]-
0
X+2Z = 9

X+2Z = 10 [HZ5]-
0
X+2Z = 11

X+2Z = 12 [HZ6]-
0

## MLXZq± grid for hydrogen (H) for Q = 0: [HXxLlZz]

The number of compounds found is 3936.

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 hydrogen with that [MLXZ] classification.

EN➝ 2
X+2Z = 0

X+2Z = 1 [HX]
100%
X+2Z = 2

X+2Z = 3 [HXZ]
0
X+2Z = 4

X+2Z = 5 [HXZ2]
0
X+2Z = 6

X+2Z = 7 [HXZ3]
0
X+2Z = 8

X+2Z = 9 [HXZ4]
0
X+2Z = 10

X+2Z = 11 [HXZ5]
0
X+2Z = 12

## MLXZq± grid for hydrogen (H) for Q = 1: [HXxLlZz]+

The number of compounds found is 28.

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

EN➝ 2
X+2Z = 0 [HL]+
100%
X+2Z = 1

X+2Z = 2 [HX2]+
0
X+2Z = 3

X+2Z = 4 [HX2Z]+
0
X+2Z = 5

X+2Z = 6 [HX2Z2]+
0
X+2Z = 7

X+2Z = 8 [HX2Z3]+
0
X+2Z = 9

X+2Z = 10 [HX2Z4]+
0
X+2Z = 11

X+2Z = 12 [HX2Z5]+
0

## MLXZq± grid for hydrogen (H) for Q = 2: [HXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for hydrogen (H) for Q = 3: [HXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for hydrogen (H) for Q = 4: [HXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for lithium (Li) for Q = -6: [LiXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for lithium (Li) for Q = -5: [LiXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for lithium (Li) for Q = -4: [LiXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for lithium (Li) for Q = -3: [LiXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for lithium (Li) for Q = -2: [LiXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for lithium (Li) for Q = -1: [LiXxLlZz]-

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 lithium with that [MLXZ] classification.

EN➝ 4 5 6 7 8 9 10 11 12 13 14 15 16
X+2Z = 0 [LiL]-
0

[LiL2]-
0

[LiL3]-
0

[LiL4]-
0

[LiL5]-
0

[LiL6]-
0

[LiL7]-
0
X+2Z = 1

[LiLX]-
0

[LiL2X]-
0

[LiL3X]-
0

[LiL4X]-
0

[LiL5X]-
0

[LiL6X]-
0

X+2Z = 2 [LiX2]-
25%

[LiLX2]-
0

[LiL2X2]-
50%

[LiL3X2]-
0

[LiL4X2]-
25%

[LiL5X2]-
0

[LiL6X2]-
0
X+2Z = 3

[LiX3]-
0

[LiLX3]-
0

[LiL2X3]-
0

[LiL3X3]-
0

[LiL4X3]-
0

[LiL5X3]-
0

X+2Z = 4 [LiX2Z]-
0

[LiX4]-
0

[LiLX4]-
0

[LiL2X4]-
0

[LiL3X4]-
0

[LiL4X4]-
0

[LiL5X4]-
0
X+2Z = 5

[LiX3Z]-
0

[LiX5]-
0

[LiLX5]-
0

[LiL2X5]-
0

[LiL3X5]-
0

[LiL4X5]-
0

X+2Z = 6 [LiX2Z2]-
0

[LiX4Z]-
0

[LiX6]-
0

[LiLX6]-
0

[LiL2X6]-
0

[LiL3X6]-
0

[LiL4X6]-
0
X+2Z = 7

[LiX3Z2]-
0

[LiX5Z]-
0

[LiX7]-
0

[LiLX7]-
0

[LiL2X7]-
0

[LiL3X7]-
0

X+2Z = 8 [LiX2Z3]-
0

[LiX4Z2]-
0

[LiX6Z]-
0

[LiX8]-
0

[LiLX8]-
0

[LiL2X8]-
0

[LiL3X8]-
0
X+2Z = 9

[LiX3Z3]-
0

[LiX5Z2]-
0

[LiX7Z]-
0

[LiX9]-
0

[LiLX9]-
0

[LiL2X9]-
0

X+2Z = 10 [LiX2Z4]-
0

[LiX4Z3]-
0

[LiX6Z2]-
0

[LiX8Z]-
0

[LiX10]-
0

[LiLX10]-
0

[LiL2X10]-
0
X+2Z = 11

[LiX3Z4]-
0

[LiX5Z3]-
0

[LiX7Z2]-
0

[LiX9Z]-
0

[LiX11]-
0

[LiLX11]-
0

X+2Z = 12 [LiX2Z5]-
0

[LiX4Z4]-
0

[LiX6Z3]-
0

[LiX8Z2]-
0

[LiX10Z]-
0

[LiX12]-
0

[LiLX12]-
0

## MLXZq± grid for lithium (Li) for Q = 0: [LiXxLlZz]

The number of compounds found is 109.

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 lithium with that [MLXZ] classification.

EN➝ 4 5 6 7 8 9 10 11 12 13 14 15 16
X+2Z = 0

[LiL2]
0

[LiL3]
0

[LiL4]
0

[LiL5]
0

[LiL6]
0

[LiL7]
0

X+2Z = 1 [LiLX]
3%

[LiL2X]
15%

[LiL3X]
56%

[LiL4X]
25%

[LiL5X]
1%

[LiL6X]
1%

[LiL7X]
0
X+2Z = 2

[LiLX2]
0

[LiL2X2]
0

[LiL3X2]
0

[LiL4X2]
0

[LiL5X2]
0

[LiL6X2]
0

X+2Z = 3 [LiX3]
0

[LiLX3]
0

[LiL2X3]
0

[LiL3X3]
0

[LiL4X3]
0

[LiL5X3]
0

[LiL6X3]
0
X+2Z = 4

[LiX4]
0

[LiLX4]
0

[LiL2X4]
0

[LiL3X4]
0

[LiL4X4]
0

[LiL5X4]
0

X+2Z = 5 [LiX3Z]
0

[LiX5]
0

[LiLX5]
0

[LiL2X5]
0

[LiL3X5]
0

[LiL4X5]
0

[LiL5X5]
0
X+2Z = 6

[LiX4Z]
0

[LiX6]
0

[LiLX6]
0

[LiL2X6]
0

[LiL3X6]
0

[LiL4X6]
0

X+2Z = 7 [LiX3Z2]
0

[LiX5Z]
0

[LiX7]
0

[LiLX7]
0

[LiL2X7]
0

[LiL3X7]
0

[LiL4X7]
0
X+2Z = 8

[LiX4Z2]
0

[LiX6Z]
0

[LiX8]
0

[LiLX8]
0

[LiL2X8]
0

[LiL3X8]
0

X+2Z = 9 [LiX3Z3]
0

[LiX5Z2]
0

[LiX7Z]
0

[LiX9]
0

[LiLX9]
0

[LiL2X9]
0

[LiL3X9]
0
X+2Z = 10

[LiX4Z3]
0

[LiX6Z2]
0

[LiX8Z]
0

[LiX10]
0

[LiLX10]
0

[LiL2X10]
0

X+2Z = 11 [LiX3Z4]
0

[LiX5Z3]
0

[LiX7Z2]
0

[LiX9Z]
0

[LiX11]
0

[LiLX11]
0

[LiL2X11]
0
X+2Z = 12

[LiX4Z4]
0

[LiX6Z3]
0

[LiX8Z2]
0

[LiX10Z]
0

[LiX12]
0

[LiLX12]
0

## MLXZq± grid for lithium (Li) for Q = 1: [LiXxLlZz]+

The number of compounds found is 39.

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 lithium with that [MLXZ] classification.

EN➝ 4 5 6 7 8 9 10 11 12 13 14 15 16
X+2Z = 0 [LiL2]+
0

[LiL3]+
0

[LiL4]+
69%

[LiL5]+
13%

[LiL6]+
15%

[LiL7]+
0

[LiL8]+
3%
X+2Z = 1

[LiL2X]+
0

[LiL3X]+
0

[LiL4X]+
0

[LiL5X]+
0

[LiL6X]+
0

[LiL7X]+
0

X+2Z = 2 [LiLX2]+
0

[LiL2X2]+
0

[LiL3X2]+
0

[LiL4X2]+
0

[LiL5X2]+
0

[LiL6X2]+
0

[LiL7X2]+
0
X+2Z = 3

[LiLX3]+
0

[LiL2X3]+
0

[LiL3X3]+
0

[LiL4X3]+
0

[LiL5X3]+
0

[LiL6X3]+
0

X+2Z = 4 [LiX4]+
0

[LiLX4]+
0

[LiL2X4]+
0

[LiL3X4]+
0

[LiL4X4]+
0

[LiL5X4]+
0

[LiL6X4]+
0
X+2Z = 5

[LiX5]+
0

[LiLX5]+
0

[LiL2X5]+
0

[LiL3X5]+
0

[LiL4X5]+
0

[LiL5X5]+
0

X+2Z = 6 [LiX4Z]+
0

[LiX6]+
0

[LiLX6]+
0

[LiL2X6]+
0

[LiL3X6]+
0

[LiL4X6]+
0

[LiL5X6]+
0
X+2Z = 7

[LiX5Z]+
0

[LiX7]+
0

[LiLX7]+
0

[LiL2X7]+
0

[LiL3X7]+
0

[LiL4X7]+
0

X+2Z = 8 [LiX4Z2]+
0

[LiX6Z]+
0

[LiX8]+
0

[LiLX8]+
0

[LiL2X8]+
0

[LiL3X8]+
0

[LiL4X8]+
0
X+2Z = 9

[LiX5Z2]+
0

[LiX7Z]+
0

[LiX9]+
0

[LiLX9]+
0

[LiL2X9]+
0

[LiL3X9]+
0

X+2Z = 10 [LiX4Z3]+
0

[LiX6Z2]+
0

[LiX8Z]+
0

[LiX10]+
0

[LiLX10]+
0

[LiL2X10]+
0

[LiL3X10]+
0
X+2Z = 11

[LiX5Z3]+
0

[LiX7Z2]+
0

[LiX9Z]+
0

[LiX11]+
0

[LiLX11]+
0

[LiL2X11]+
0

X+2Z = 12 [LiX4Z4]+
0

[LiX6Z3]+
0

[LiX8Z2]+
0

[LiX10Z]+
0

[LiX12]+
0

[LiLX12]+
0

[LiL2X12]+
0

## MLXZq± grid for lithium (Li) for Q = 2: [LiXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for lithium (Li) for Q = 3: [LiXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for lithium (Li) for Q = 4: [LiXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for sodium (Na) for Q = -6: [NaXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for sodium (Na) for Q = -5: [NaXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for sodium (Na) for Q = -4: [NaXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for sodium (Na) for Q = -3: [NaXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for sodium (Na) for Q = -2: [NaXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for sodium (Na) for Q = -1: [NaXxLlZz]-

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 sodium with that [MLXZ] classification.

EN➝ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
X+2Z = 0 [Na]-
0

[NaL]-
0

[NaL2]-
0

[NaL3]-
0

[NaL4]-
0

[NaL5]-
0

[NaL6]-
0

[NaL7]-
0
X+2Z = 1

[NaX]-
0

[NaLX]-
0

[NaL2X]-
0

[NaL3X]-
0

[NaL4X]-
0

[NaL5X]-
0

[NaL6X]-
0

X+2Z = 2 [NaZ]-
0

[NaX2]-
0

[NaLX2]-
0

[NaL2X2]-
0

[NaL3X2]-
0

[NaL4X2]-
100%

[NaL5X2]-
0

[NaL6X2]-
0
X+2Z = 3

[NaXZ]-
0

[NaX3]-
0

[NaLX3]-
0

[NaL2X3]-
0

[NaL3X3]-
0

[NaL4X3]-
0

[NaL5X3]-
0

X+2Z = 4 [NaZ2]-
0

[NaX2Z]-
0

[NaX4]-
0

[NaLX4]-
0

[NaL2X4]-
0

[NaL3X4]-
0

[NaL4X4]-
0

[NaL5X4]-
0
X+2Z = 5

[NaXZ2]-
0

[NaX3Z]-
0

[NaX5]-
0

[NaLX5]-
0

[NaL2X5]-
0

[NaL3X5]-
0

[NaL4X5]-
0

X+2Z = 6 [NaZ3]-
0

[NaX2Z2]-
0

[NaX4Z]-
0

[NaX6]-
0

[NaLX6]-
0

[NaL2X6]-
0

[NaL3X6]-
0

[NaL4X6]-
0
X+2Z = 7

[NaXZ3]-
0

[NaX3Z2]-
0

[NaX5Z]-
0

[NaX7]-
0

[NaLX7]-
0

[NaL2X7]-
0

[NaL3X7]-
0

X+2Z = 8 [NaZ4]-
0

[NaX2Z3]-
0

[NaX4Z2]-
0

[NaX6Z]-
0

[NaX8]-
0

[NaLX8]-
0

[NaL2X8]-
0

[NaL3X8]-
0
X+2Z = 9

[NaXZ4]-
0

[NaX3Z3]-
0

[NaX5Z2]-
0

[NaX7Z]-
0

[NaX9]-
0

[NaLX9]-
0

[NaL2X9]-
0

X+2Z = 10 [NaZ5]-
0

[NaX2Z4]-
0

[NaX4Z3]-
0

[NaX6Z2]-
0

[NaX8Z]-
0

[NaX10]-
0

[NaLX10]-
0

[NaL2X10]-
0
X+2Z = 11

[NaXZ5]-
0

[NaX3Z4]-
0

[NaX5Z3]-
0

[NaX7Z2]-
0

[NaX9Z]-
0

[NaX11]-
0

[NaLX11]-
0

X+2Z = 12 [NaZ6]-
0

[NaX2Z5]-
0

[NaX4Z4]-
0

[NaX6Z3]-
0

[NaX8Z2]-
0

[NaX10Z]-
0

[NaX12]-
0

[NaLX12]-
0

## MLXZq± grid for sodium (Na) for Q = 0: [NaXxLlZz]

The number of compounds found is 60.

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

EN➝ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
X+2Z = 0

[NaL]
0

[NaL2]
0

[NaL3]
0

[NaL4]
0

[NaL5]
0

[NaL6]
0

[NaL7]
0

X+2Z = 1 [NaX]
3%

[NaLX]
2%

[NaL2X]
8%

[NaL3X]
8%

[NaL4X]
18%

[NaL5X]
33%

[NaL6X]
18%

[NaL7X]
8%
X+2Z = 2

[NaX2]
0

[NaLX2]
0

[NaL2X2]
0

[NaL3X2]
0

[NaL4X2]
0

[NaL5X2]
0

[NaL6X2]
0

X+2Z = 3 [NaXZ]
0

[NaX3]
0

[NaLX3]
0

[NaL2X3]
0

[NaL3X3]
0

[NaL4X3]
0

[NaL5X3]
0

[NaL6X3]
0
X+2Z = 4

[NaX2Z]
0

[NaX4]
0

[NaLX4]
0

[NaL2X4]
0

[NaL3X4]
0

[NaL4X4]
0

[NaL5X4]
0

X+2Z = 5 [NaXZ2]
0

[NaX3Z]
0

[NaX5]
0

[NaLX5]
0

[NaL2X5]
0

[NaL3X5]
0

[NaL4X5]
0

[NaL5X5]
0
X+2Z = 6

[NaX2Z2]
0

[NaX4Z]
0

[NaX6]
0

[NaLX6]
0

[NaL2X6]
0

[NaL3X6]
0

[NaL4X6]
0

X+2Z = 7 [NaXZ3]
0

[NaX3Z2]
0

[NaX5Z]
0

[NaX7]
0

[NaLX7]
0

[NaL2X7]
0

[NaL3X7]
0

[NaL4X7]
0
X+2Z = 8

[NaX2Z3]
0

[NaX4Z2]
0

[NaX6Z]
0

[NaX8]
0

[NaLX8]
0

[NaL2X8]
0

[NaL3X8]
0

X+2Z = 9 [NaXZ4]
0

[NaX3Z3]
0

[NaX5Z2]
0

[NaX7Z]
0

[NaX9]
0

[NaLX9]
0

[NaL2X9]
0

[NaL3X9]
0
X+2Z = 10

[NaX2Z4]
0

[NaX4Z3]
0

[NaX6Z2]
0

[NaX8Z]
0

[NaX10]
0

[NaLX10]
0

[NaL2X10]
0

X+2Z = 11 [NaXZ5]
0

[NaX3Z4]
0

[NaX5Z3]
0

[NaX7Z2]
0

[NaX9Z]
0

[NaX11]
0

[NaLX11]
0

[NaL2X11]
0
X+2Z = 12

[NaX2Z5]
0

[NaX4Z4]
0

[NaX6Z3]
0

[NaX8Z2]
0

[NaX10Z]
0

[NaX12]
0

[NaLX12]
0

## MLXZq± grid for sodium (Na) for Q = 1: [NaXxLlZz]+

The number of compounds found is 45.

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 sodium with that [MLXZ] classification.

EN➝ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
X+2Z = 0 [NaL]+
0

[NaL2]+
0

[NaL3]+
0

[NaL4]+
11%

[NaL5]+
11%

[NaL6]+
42%

[NaL7]+
9%

[NaL8]+
27%
X+2Z = 1

[NaLX]+
0

[NaL2X]+
0

[NaL3X]+
0

[NaL4X]+
0

[NaL5X]+
0

[NaL6X]+
0

[NaL7X]+
0

X+2Z = 2 [NaX2]+
0

[NaLX2]+
0

[NaL2X2]+
0

[NaL3X2]+
0

[NaL4X2]+
0

[NaL5X2]+
0

[NaL6X2]+
0

[NaL7X2]+
0
X+2Z = 3

[NaX3]+
0

[NaLX3]+
0

[NaL2X3]+
0

[NaL3X3]+
0

[NaL4X3]+
0

[NaL5X3]+
0

[NaL6X3]+
0

X+2Z = 4 [NaX2Z]+
0

[NaX4]+
0

[NaLX4]+
0

[NaL2X4]+
0

[NaL3X4]+
0

[NaL4X4]+
0

[NaL5X4]+
0

[NaL6X4]+
0
X+2Z = 5

[NaX3Z]+
0

[NaX5]+
0

[NaLX5]+
0

[NaL2X5]+
0

[NaL3X5]+
0

[NaL4X5]+
0

[NaL5X5]+
0

X+2Z = 6 [NaX2Z2]+
0

[NaX4Z]+
0

[NaX6]+
0

[NaLX6]+
0

[NaL2X6]+
0

[NaL3X6]+
0

[NaL4X6]+
0

[NaL5X6]+
0
X+2Z = 7

[NaX3Z2]+
0

[NaX5Z]+
0

[NaX7]+
0

[NaLX7]+
0

[NaL2X7]+
0

[NaL3X7]+
0

[NaL4X7]+
0

X+2Z = 8 [NaX2Z3]+
0

[NaX4Z2]+
0

[NaX6Z]+
0

[NaX8]+
0

[NaLX8]+
0

[NaL2X8]+
0

[NaL3X8]+
0

[NaL4X8]+
0
X+2Z = 9

[NaX3Z3]+
0

[NaX5Z2]+
0

[NaX7Z]+
0

[NaX9]+
0

[NaLX9]+
0

[NaL2X9]+
0

[NaL3X9]+
0

X+2Z = 10 [NaX2Z4]+
0

[NaX4Z3]+
0

[NaX6Z2]+
0

[NaX8Z]+
0

[NaX10]+
0

[NaLX10]+
0

[NaL2X10]+
0

[NaL3X10]+
0
X+2Z = 11

[NaX3Z4]+
0

[NaX5Z3]+
0

[NaX7Z2]+
0

[NaX9Z]+
0

[NaX11]+
0

[NaLX11]+
0

[NaL2X11]+
0

X+2Z = 12 [NaX2Z5]+
0

[NaX4Z4]+
0

[NaX6Z3]+
0

[NaX8Z2]+
0

[NaX10Z]+
0

[NaX12]+
0

[NaLX12]+
0

[NaL2X12]+
0

## MLXZq± grid for sodium (Na) for Q = 2: [NaXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for sodium (Na) for Q = 3: [NaXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for sodium (Na) for Q = 4: [NaXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for potassium (K) for Q = -6: [KXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for potassium (K) for Q = -5: [KXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for potassium (K) for Q = -4: [KXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for potassium (K) for Q = -3: [KXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for potassium (K) for Q = -2: [KXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for potassium (K) for Q = -1: [KXxLlZz]-

The number of compounds found is 0.

## MLXZq± grid for potassium (K) for Q = 0: [KXxLlZz]

The number of compounds found is 66.

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 potassium with that [MLXZ] classification.

EN➝ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22
X+2Z = 0

[KL]
0

[KL2]
0

[KL3]
0

[KL4]
0

[KL5]
0

[KL6]
0

[KL7]
0

[KL8]
0

[KL9]
0

[KL10]
0

X+2Z = 1 [KX]
2%

[KLX]
0

[KL2X]
2%

[KL3X]
8%

[KL4X]
3%

[KL5X]
11%

[KL6X]
35%

[KL7X]
30%

[KL8X]
9%

[KL9X]
2%

[KL10X]
0
X+2Z = 2

[KX2]
0

[KLX2]
0

[KL2X2]
0

[KL3X2]
0

[KL4X2]
0

[KL5X2]
0

[KL6X2]
0

[KL7X2]
0

[KL8X2]
0

[KL9X2]
0

X+2Z = 3 [KXZ]
0

[KX3]
0

[KLX3]
0

[KL2X3]
0

[KL3X3]
0

[KL4X3]
0

[KL5X3]
0

[KL6X3]
0

[KL7X3]
0

[KL8X3]
0

[KL9X3]
0
X+2Z = 4

[KX2Z]
0

[KX4]
0

[KLX4]
0

[KL2X4]
0

[KL3X4]
0

[KL4X4]
0

[KL5X4]
0

[KL6X4]
0

[KL7X4]
0

[KL8X4]
0

X+2Z = 5 [KXZ2]
0

[KX3Z]
0

[KX5]
0

[KLX5]
0

[KL2X5]
0

[KL3X5]
0

[KL4X5]
0

[KL5X5]
0

[KL6X5]
0

[KL7X5]
0

[KL8X5]
0
X+2Z = 6

[KX2Z2]
0

[KX4Z]
0

[KX6]
0

[KLX6]
0

[KL2X6]
0

[KL3X6]
0

[KL4X6]
0

[KL5X6]
0

[KL6X6]
0

[KL7X6]
0

X+2Z = 7 [KXZ3]
0

[KX3Z2]
0

[KX5Z]
0

[KX7]
0

[KLX7]
0

[KL2X7]
0

[KL3X7]
0

[KL4X7]
0

[KL5X7]
0

[KL6X7]
0

[KL7X7]
0
X+2Z = 8

[KX2Z3]
0

[KX4Z2]
0

[KX6Z]
0

[KX8]
0

[KLX8]
0

[KL2X8]
0

[KL3X8]
0

[KL4X8]
0

[KL5X8]
0

[KL6X8]
0

X+2Z = 9 [KXZ4]
0

[KX3Z3]
0

[KX5Z2]
0

[KX7Z]
0

[KX9]
0

[KLX9]
0

[KL2X9]
0

[KL3X9]
0

[KL4X9]
0

[KL5X9]
0

[KL6X9]
0
X+2Z = 10

[KX2Z4]
0

[KX4Z3]
0

[KX6Z2]
0

[KX8Z]
0

[KX10]
0

[KLX10]
0

[KL2X10]
0

[KL3X10]
0

[KL4X10]
0

[KL5X10]
0

X+2Z = 11 [KXZ5]
0

[KX3Z4]
0

[KX5Z3]
0

[KX7Z2]
0

[KX9Z]
0

[KX11]
0

[KLX11]
0

[KL2X11]
0

[KL3X11]
0

[KL4X11]
0

[KL5X11]
0
X+2Z = 12

[KX2Z5]
0

[KX4Z4]
0

[KX6Z3]
0

[KX8Z2]
0

[KX10Z]
0

[KX12]
0

[KLX12]
0

[KL2X12]
0

[KL3X12]
0

[KL4X12]
0

## MLXZq± grid for potassium (K) for Q = 1: [KXxLlZz]+

The number of compounds found is 43.

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 potassium with that [MLXZ] classification.

EN➝ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22
X+2Z = 0 [KL]+
0

[KL2]+
0

[KL3]+
0

[KL4]+
5%

[KL5]+
2%

[KL6]+
28%

[KL7]+
9%

[KL8]+
44%

[KL9]+
2%

[KL10]+
7%

[KL11]+
2%
X+2Z = 1

[KLX]+
0

[KL2X]+
0

[KL3X]+
0

[KL4X]+
0

[KL5X]+
0

[KL6X]+
0

[KL7X]+
0

[KL8X]+
0

[KL9X]+
0

[KL10X]+
0

X+2Z = 2 [KX2]+
0

[KLX2]+
0

[KL2X2]+
0

[KL3X2]+
0

[KL4X2]+
0

[KL5X2]+
0

[KL6X2]+
0

[KL7X2]+
0

[KL8X2]+
0

[KL9X2]+
0

[KL10X2]+
0
X+2Z = 3

[KX3]+
0

[KLX3]+
0

[KL2X3]+
0

[KL3X3]+
0

[KL4X3]+
0

[KL5X3]+
0

[KL6X3]+
0

[KL7X3]+
0

[KL8X3]+
0

[KL9X3]+
0

X+2Z = 4 [KX2Z]+
0

[KX4]+
0

[KLX4]+
0

[KL2X4]+
0

[KL3X4]+
0

[KL4X4]+
0

[KL5X4]+
0

[KL6X4]+
0

[KL7X4]+
0

[KL8X4]+
0

[KL9X4]+
0
X+2Z = 5

[KX3Z]+
0

[KX5]+
0

[KLX5]+
0

[KL2X5]+
0

[KL3X5]+
0

[KL4X5]+
0

[KL5X5]+
0

[KL6X5]+
0

[KL7X5]+
0

[KL8X5]+
0

X+2Z = 6 [KX2Z2]+
0

[KX4Z]+
0

[KX6]+
0

[KLX6]+
0

[KL2X6]+
0

[KL3X6]+
0

[KL4X6]+
0

[KL5X6]+
0

[KL6X6]+
0

[KL7X6]+
0

[KL8X6]+
0
X+2Z = 7

[KX3Z2]+
0

[KX5Z]+
0

[KX7]+
0

[KLX7]+
0

[KL2X7]+
0

[KL3X7]+
0

[KL4X7]+
0

[KL5X7]+
0

[KL6X7]+
0

[KL7X7]+
0

X+2Z = 8 [KX2Z3]+
0

[KX4Z2]+
0

[KX6Z]+
0

[KX8]+
0

[KLX8]+
0

[KL2X8]+
0

[KL3X8]+
0

[KL4X8]+
0

[KL5X8]+
0

[KL6X8]+
0

[KL7X8]+
0
X+2Z = 9

[KX3Z3]+
0

[KX5Z2]+
0

[KX7Z]+
0

[KX9]+
0

[KLX9]+
0

[KL2X9]+
0

[KL3X9]+
0

[KL4X9]+
0

[KL5X9]+
0

[KL6X9]+
0

X+2Z = 10 [KX2Z4]+
0

[KX4Z3]+
0

[KX6Z2]+
0

[KX8Z]+
0

[KX10]+
0

[KLX10]+
0

[KL2X10]+
0

[KL3X10]+
0

[KL4X10]+
0

[KL5X10]+
0

[KL6X10]+
0
X+2Z = 11

[KX3Z4]+
0

[KX5Z3]+
0

[KX7Z2]+
0

[KX9Z]+
0

[KX11]+
0

[KLX11]+
0

[KL2X11]+
0

[KL3X11]+
0

[KL4X11]+
0

[KL5X11]+
0

X+2Z = 12 [KX2Z5]+
0

[KX4Z4]+
0

[KX6Z3]+
0

[KX8Z2]+
0

[KX10Z]+
0

[KX12]+
0

[KLX12]+
0

[KL2X12]+
0

[KL3X12]+
0

[KL4X12]+
0

[KL5X12]+
0

## MLXZq± grid for potassium (K) for Q = 2: [KXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for potassium (K) for Q = 3: [KXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for potassium (K) for Q = 4: [KXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for rubidium (Rb) for Q = -6: [RbXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for rubidium (Rb) for Q = -5: [RbXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for rubidium (Rb) for Q = -4: [RbXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for rubidium (Rb) for Q = -3: [RbXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for rubidium (Rb) for Q = -2: [RbXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for rubidium (Rb) for Q = -1: [RbXxLlZz]-

The number of compounds found is 0.

## MLXZq± grid for rubidium (Rb) for Q = 0: [RbXxLlZz]

The number of compounds found is 24.

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

EN➝ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0

[RbL]
0

[RbL2]
0

[RbL3]
0

[RbL4]
0

[RbL5]
0

[RbL6]
0

[RbL7]
0

[RbL8]
0

[RbL9]
0

X+2Z = 1 [RbX]
4%

[RbLX]
8%

[RbL2X]
8%

[RbL3X]
8%

[RbL4X]
0

[RbL5X]
8%

[RbL6X]
17%

[RbL7X]
33%

[RbL8X]
8%

[RbL9X]
4%
X+2Z = 2

[RbX2]
0

[RbLX2]
0

[RbL2X2]
0

[RbL3X2]
0

[RbL4X2]
0

[RbL5X2]
0

[RbL6X2]
0

[RbL7X2]
0

[RbL8X2]
0

X+2Z = 3 [RbXZ]
0

[RbX3]
0

[RbLX3]
0

[RbL2X3]
0

[RbL3X3]
0

[RbL4X3]
0

[RbL5X3]
0

[RbL6X3]
0

[RbL7X3]
0

[RbL8X3]
0
X+2Z = 4

[RbX2Z]
0

[RbX4]
0

[RbLX4]
0

[RbL2X4]
0

[RbL3X4]
0

[RbL4X4]
0

[RbL5X4]
0

[RbL6X4]
0

[RbL7X4]
0

X+2Z = 5 [RbXZ2]
0

[RbX3Z]
0

[RbX5]
0

[RbLX5]
0

[RbL2X5]
0

[RbL3X5]
0

[RbL4X5]
0

[RbL5X5]
0

[RbL6X5]
0

[RbL7X5]
0
X+2Z = 6

[RbX2Z2]
0

[RbX4Z]
0

[RbX6]
0

[RbLX6]
0

[RbL2X6]
0

[RbL3X6]
0

[RbL4X6]
0

[RbL5X6]
0

[RbL6X6]
0

X+2Z = 7 [RbXZ3]
0

[RbX3Z2]
0

[RbX5Z]
0

[RbX7]
0

[RbLX7]
0

[RbL2X7]
0

[RbL3X7]
0

[RbL4X7]
0

[RbL5X7]
0

[RbL6X7]
0
X+2Z = 8

[RbX2Z3]
0

[RbX4Z2]
0

[RbX6Z]
0

[RbX8]
0

[RbLX8]
0

[RbL2X8]
0

[RbL3X8]
0

[RbL4X8]
0

[RbL5X8]
0

X+2Z = 9 [RbXZ4]
0

[RbX3Z3]
0

[RbX5Z2]
0

[RbX7Z]
0

[RbX9]
0

[RbLX9]
0

[RbL2X9]
0

[RbL3X9]
0

[RbL4X9]
0

[RbL5X9]
0
X+2Z = 10

[RbX2Z4]
0

[RbX4Z3]
0

[RbX6Z2]
0

[RbX8Z]
0

[RbX10]
0

[RbLX10]
0

[RbL2X10]
0

[RbL3X10]
0

[RbL4X10]
0

X+2Z = 11 [RbXZ5]
0

[RbX3Z4]
0

[RbX5Z3]
0

[RbX7Z2]
0

[RbX9Z]
0

[RbX11]
0

[RbLX11]
0

[RbL2X11]
0

[RbL3X11]
0

[RbL4X11]
0
X+2Z = 12

[RbX2Z5]
0

[RbX4Z4]
0

[RbX6Z3]
0

[RbX8Z2]
0

[RbX10Z]
0

[RbX12]
0

[RbLX12]
0

[RbL2X12]
0

[RbL3X12]
0

## MLXZq± grid for rubidium (Rb) for Q = 1: [RbXxLlZz]+

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 rubidium with that [MLXZ] classification.

EN➝ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
X+2Z = 0 [RbL]+
0

[RbL2]+
0

[RbL3]+
0

[RbL4]+
0

[RbL5]+
0

[RbL6]+
11%

[RbL7]+
11%

[RbL8]+
33%

[RbL9]+
11%

[RbL10]+
33%
X+2Z = 1

[RbLX]+
0

[RbL2X]+
0

[RbL3X]+
0

[RbL4X]+
0

[RbL5X]+
0

[RbL6X]+
0

[RbL7X]+
0

[RbL8X]+
0

[RbL9X]+
0

X+2Z = 2 [RbX2]+
0

[RbLX2]+
0

[RbL2X2]+
0

[RbL3X2]+
0

[RbL4X2]+
0

[RbL5X2]+
0

[RbL6X2]+
0

[RbL7X2]+
0

[RbL8X2]+
0

[RbL9X2]+
0
X+2Z = 3

[RbX3]+
0

[RbLX3]+
0

[RbL2X3]+
0

[RbL3X3]+
0

[RbL4X3]+
0

[RbL5X3]+
0

[RbL6X3]+
0

[RbL7X3]+
0

[RbL8X3]+
0

X+2Z = 4 [RbX2Z]+
0

[RbX4]+
0

[RbLX4]+
0

[RbL2X4]+
0

[RbL3X4]+
0

[RbL4X4]+
0

[RbL5X4]+
0

[RbL6X4]+
0

[RbL7X4]+
0

[RbL8X4]+
0
X+2Z = 5

[RbX3Z]+
0

[RbX5]+
0

[RbLX5]+
0

[RbL2X5]+
0

[RbL3X5]+
0

[RbL4X5]+
0

[RbL5X5]+
0

[RbL6X5]+
0

[RbL7X5]+
0

X+2Z = 6 [RbX2Z2]+
0

[RbX4Z]+
0

[RbX6]+
0

[RbLX6]+
0

[RbL2X6]+
0

[RbL3X6]+
0

[RbL4X6]+
0

[RbL5X6]+
0

[RbL6X6]+
0

[RbL7X6]+
0
X+2Z = 7

[RbX3Z2]+
0

[RbX5Z]+
0

[RbX7]+
0

[RbLX7]+
0

[RbL2X7]+
0

[RbL3X7]+
0

[RbL4X7]+
0

[RbL5X7]+
0

[RbL6X7]+
0

X+2Z = 8 [RbX2Z3]+
0

[RbX4Z2]+
0

[RbX6Z]+
0

[RbX8]+
0

[RbLX8]+
0

[RbL2X8]+
0

[RbL3X8]+
0

[RbL4X8]+
0

[RbL5X8]+
0

[RbL6X8]+
0
X+2Z = 9

[RbX3Z3]+
0

[RbX5Z2]+
0

[RbX7Z]+
0

[RbX9]+
0

[RbLX9]+
0

[RbL2X9]+
0

[RbL3X9]+
0

[RbL4X9]+
0

[RbL5X9]+
0

X+2Z = 10 [RbX2Z4]+
0

[RbX4Z3]+
0

[RbX6Z2]+
0

[RbX8Z]+
0

[RbX10]+
0

[RbLX10]+
0

[RbL2X10]+
0

[RbL3X10]+
0

[RbL4X10]+
0

[RbL5X10]+
0
X+2Z = 11

[RbX3Z4]+
0

[RbX5Z3]+
0

[RbX7Z2]+
0

[RbX9Z]+
0

[RbX11]+
0

[RbLX11]+
0

[RbL2X11]+
0

[RbL3X11]+
0

[RbL4X11]+
0

X+2Z = 12 [RbX2Z5]+
0

[RbX4Z4]+
0

[RbX6Z3]+
0

[RbX8Z2]+
0

[RbX10Z]+
0

[RbX12]+
0

[RbLX12]+
0

[RbL2X12]+
0

[RbL3X12]+
0

[RbL4X12]+
0

## MLXZq± grid for rubidium (Rb) for Q = 2: [RbXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for rubidium (Rb) for Q = 3: [RbXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for rubidium (Rb) for Q = 4: [RbXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for caesium (Cs) for Q = -6: [CsXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for caesium (Cs) for Q = -5: [CsXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for caesium (Cs) for Q = -4: [CsXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for caesium (Cs) for Q = -3: [CsXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for caesium (Cs) for Q = -2: [CsXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for caesium (Cs) for Q = -1: [CsXxLlZz]-

The number of compounds found is 0.

## MLXZq± grid for caesium (Cs) for Q = 0: [CsXxLlZz]

The number of compounds found is 13.

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 caesium with that [MLXZ] classification.

EN➝ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0

[CsL]
0

[CsL2]
0

[CsL3]
0

[CsL4]
0

[CsL5]
0

[CsL6]
0

[CsL7]
0

[CsL8]
0

[CsL9]
0

[CsL10]
0

[CsL11]
0

X+2Z = 1 [CsX]
8%

[CsLX]
0

[CsL2X]
8%

[CsL3X]
8%

[CsL4X]
8%

[CsL5X]
8%

[CsL6X]
0

[CsL7X]
23%

[CsL8X]
38%

[CsL9X]
0

[CsL10X]
0

[CsL11X]
0
X+2Z = 2

[CsX2]
0

[CsLX2]
0

[CsL2X2]
0

[CsL3X2]
0

[CsL4X2]
0

[CsL5X2]
0

[CsL6X2]
0

[CsL7X2]
0

[CsL8X2]
0

[CsL9X2]
0

[CsL10X2]
0

X+2Z = 3 [CsXZ]
0

[CsX3]
0

[CsLX3]
0

[CsL2X3]
0

[CsL3X3]
0

[CsL4X3]
0

[CsL5X3]
0

[CsL6X3]
0

[CsL7X3]
0

[CsL8X3]
0

[CsL9X3]
0

[CsL10X3]
0
X+2Z = 4

[CsX2Z]
0

[CsX4]
0

[CsLX4]
0

[CsL2X4]
0

[CsL3X4]
0

[CsL4X4]
0

[CsL5X4]
0

[CsL6X4]
0

[CsL7X4]
0

[CsL8X4]
0

[CsL9X4]
0

X+2Z = 5 [CsXZ2]
0

[CsX3Z]
0

[CsX5]
0

[CsLX5]
0

[CsL2X5]
0

[CsL3X5]
0

[CsL4X5]
0

[CsL5X5]
0

[CsL6X5]
0

[CsL7X5]
0

[CsL8X5]
0

[CsL9X5]
0
X+2Z = 6

[CsX2Z2]
0

[CsX4Z]
0

[CsX6]
0

[CsLX6]
0

[CsL2X6]
0

[CsL3X6]
0

[CsL4X6]
0

[CsL5X6]
0

[CsL6X6]
0

[CsL7X6]
0

[CsL8X6]
0

X+2Z = 7 [CsXZ3]
0

[CsX3Z2]
0

[CsX5Z]
0

[CsX7]
0

[CsLX7]
0

[CsL2X7]
0

[CsL3X7]
0

[CsL4X7]
0

[CsL5X7]
0

[CsL6X7]
0

[CsL7X7]
0

[CsL8X7]
0
X+2Z = 8

[CsX2Z3]
0

[CsX4Z2]
0

[CsX6Z]
0

[CsX8]
0

[CsLX8]
0

[CsL2X8]
0

[CsL3X8]
0

[CsL4X8]
0

[CsL5X8]
0

[CsL6X8]
0

[CsL7X8]
0

X+2Z = 9 [CsXZ4]
0

[CsX3Z3]
0

[CsX5Z2]
0

[CsX7Z]
0

[CsX9]
0

[CsLX9]
0

[CsL2X9]
0

[CsL3X9]
0

[CsL4X9]
0

[CsL5X9]
0

[CsL6X9]
0

[CsL7X9]
0
X+2Z = 10

[CsX2Z4]
0

[CsX4Z3]
0

[CsX6Z2]
0

[CsX8Z]
0

[CsX10]
0

[CsLX10]
0

[CsL2X10]
0

[CsL3X10]
0

[CsL4X10]
0

[CsL5X10]
0

[CsL6X10]
0

X+2Z = 11 [CsXZ5]
0

[CsX3Z4]
0

[CsX5Z3]
0

[CsX7Z2]
0

[CsX9Z]
0

[CsX11]
0

[CsLX11]
0

[CsL2X11]
0

[CsL3X11]
0

[CsL4X11]
0

[CsL5X11]
0

[CsL6X11]
0
X+2Z = 12

[CsX2Z5]
0

[CsX4Z4]
0

[CsX6Z3]
0

[CsX8Z2]
0

[CsX10Z]
0

[CsX12]
0

[CsLX12]
0

[CsL2X12]
0

[CsL3X12]
0

[CsL4X12]
0

[CsL5X12]
0

## MLXZq± grid for caesium (Cs) for Q = 1: [CsXxLlZz]+

The number of compounds found is 14.

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 caesium with that [MLXZ] classification.

EN➝ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
X+2Z = 0 [CsL]+
0

[CsL2]+
0

[CsL3]+
0

[CsL4]+
0

[CsL5]+
7%

[CsL6]+
29%

[CsL7]+
7%

[CsL8]+
21%

[CsL9]+
7%

[CsL10]+
14%

[CsL11]+
7%

[CsL12]+
7%
X+2Z = 1

[CsLX]+
0

[CsL2X]+
0

[CsL3X]+
0

[CsL4X]+
0

[CsL5X]+
0

[CsL6X]+
0

[CsL7X]+
0

[CsL8X]+
0

[CsL9X]+
0

[CsL10X]+
0

[CsL11X]+
0

X+2Z = 2 [CsX2]+
0

[CsLX2]+
0

[CsL2X2]+
0

[CsL3X2]+
0

[CsL4X2]+
0

[CsL5X2]+
0

[CsL6X2]+
0

[CsL7X2]+
0

[CsL8X2]+
0

[CsL9X2]+
0

[CsL10X2]+
0

[CsL11X2]+
0
X+2Z = 3

[CsX3]+
0

[CsLX3]+
0

[CsL2X3]+
0

[CsL3X3]+
0

[CsL4X3]+
0

[CsL5X3]+
0

[CsL6X3]+
0

[CsL7X3]+
0

[CsL8X3]+
0

[CsL9X3]+
0

[CsL10X3]+
0

X+2Z = 4 [CsX2Z]+
0

[CsX4]+
0

[CsLX4]+
0

[CsL2X4]+
0

[CsL3X4]+
0

[CsL4X4]+
0

[CsL5X4]+
0

[CsL6X4]+
0

[CsL7X4]+
0

[CsL8X4]+
0

[CsL9X4]+
0

[CsL10X4]+
0
X+2Z = 5

[CsX3Z]+
0

[CsX5]+
0

[CsLX5]+
0

[CsL2X5]+
0

[CsL3X5]+
0

[CsL4X5]+
0

[CsL5X5]+
0

[CsL6X5]+
0

[CsL7X5]+
0

[CsL8X5]+
0

[CsL9X5]+
0

X+2Z = 6 [CsX2Z2]+
0

[CsX4Z]+
0

[CsX6]+
0

[CsLX6]+
0

[CsL2X6]+
0

[CsL3X6]+
0

[CsL4X6]+
0

[CsL5X6]+
0

[CsL6X6]+
0

[CsL7X6]+
0

[CsL8X6]+
0

[CsL9X6]+
0
X+2Z = 7

[CsX3Z2]+
0

[CsX5Z]+
0

[CsX7]+
0

[CsLX7]+
0

[CsL2X7]+
0

[CsL3X7]+
0

[CsL4X7]+
0

[CsL5X7]+
0

[CsL6X7]+
0

[CsL7X7]+
0

[CsL8X7]+
0

X+2Z = 8 [CsX2Z3]+
0

[CsX4Z2]+
0

[CsX6Z]+
0

[CsX8]+
0

[CsLX8]+
0

[CsL2X8]+
0

[CsL3X8]+
0

[CsL4X8]+
0

[CsL5X8]+
0

[CsL6X8]+
0

[CsL7X8]+
0

[CsL8X8]+
0
X+2Z = 9

[CsX3Z3]+
0

[CsX5Z2]+
0

[CsX7Z]+
0

[CsX9]+
0

[CsLX9]+
0

[CsL2X9]+
0

[CsL3X9]+
0

[CsL4X9]+
0

[CsL5X9]+
0

[CsL6X9]+
0

[CsL7X9]+
0

X+2Z = 10 [CsX2Z4]+
0

[CsX4Z3]+
0

[CsX6Z2]+
0

[CsX8Z]+
0

[CsX10]+
0

[CsLX10]+
0

[CsL2X10]+
0

[CsL3X10]+
0

[CsL4X10]+
0

[CsL5X10]+
0

[CsL6X10]+
0

[CsL7X10]+
0
X+2Z = 11

[CsX3Z4]+
0

[CsX5Z3]+
0

[CsX7Z2]+
0

[CsX9Z]+
0

[CsX11]+
0

[CsLX11]+
0

[CsL2X11]+
0

[CsL3X11]+
0

[CsL4X11]+
0

[CsL5X11]+
0

[CsL6X11]+
0

X+2Z = 12 [CsX2Z5]+
0

[CsX4Z4]+
0

[CsX6Z3]+
0

[CsX8Z2]+
0

[CsX10Z]+
0

[CsX12]+
0

[CsLX12]+
0

[CsL2X12]+
0

[CsL3X12]+
0

[CsL4X12]+
0

[CsL5X12]+
0

[CsL6X12]+
0

## MLXZq± grid for caesium (Cs) for Q = 2: [CsXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for caesium (Cs) for Q = 3: [CsXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for caesium (Cs) for Q = 4: [CsXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = -6: [FrXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = -5: [FrXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = -4: [FrXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = -3: [FrXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = -2: [FrXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = -1: [FrXxLlZz]-

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = 0: [FrXxLlZz]

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = 1: [FrXxLlZz]+

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = 2: [FrXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = 3: [FrXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for francium (Fr) for Q = 4: [FrXxLlZz]4+

The number of compounds found is 0.