# 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 3940.

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 fluorine (F) for Q = -6: [FXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for fluorine (F) for Q = -5: [FXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for fluorine (F) for Q = -4: [FXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for fluorine (F) for Q = -3: [FXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for fluorine (F) for Q = -2: [FXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for fluorine (F) for Q = -1: [FXxLlZz]-

The number of compounds found is 48.

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 fluorine with that [MLXZ] classification.

EN➝ 8
X+2Z = 0 [F]-
0
X+2Z = 1

X+2Z = 2 [FZ]-
46%
X+2Z = 3

X+2Z = 4 [FZ2]-
54%
X+2Z = 5

X+2Z = 6 [FZ3]-
0
X+2Z = 7

X+2Z = 8 [FZ4]-
0
X+2Z = 9

X+2Z = 10 [FZ5]-
0
X+2Z = 11

X+2Z = 12 [FZ6]-
0

## MLXZq± grid for fluorine (F) for Q = 0: [FXxLlZz]

The number of compounds found is 1873.

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 fluorine with that [MLXZ] classification.

EN➝ 8
X+2Z = 0

X+2Z = 1 [FX]
92%
X+2Z = 2

X+2Z = 3 [FXZ]
7%
X+2Z = 4

X+2Z = 5 [FXZ2]
0.5%
X+2Z = 6

X+2Z = 7 [FXZ3]
0
X+2Z = 8

X+2Z = 9 [FXZ4]
0
X+2Z = 10

X+2Z = 11 [FXZ5]
0
X+2Z = 12

## MLXZq± grid for fluorine (F) for Q = 1: [FXxLlZz]+

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 fluorine with that [MLXZ] classification.

EN➝ 8
X+2Z = 0 [FL]+
100%
X+2Z = 1

X+2Z = 2 [FX2]+
0
X+2Z = 3

X+2Z = 4 [FX2Z]+
0
X+2Z = 5

X+2Z = 6 [FX2Z2]+
0
X+2Z = 7

X+2Z = 8 [FX2Z3]+
0
X+2Z = 9

X+2Z = 10 [FX2Z4]+
0
X+2Z = 11

X+2Z = 12 [FX2Z5]+
0

## MLXZq± grid for fluorine (F) for Q = 2: [FXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for fluorine (F) for Q = 3: [FXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for fluorine (F) for Q = 4: [FXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for chlorine (Cl) for Q = -6: [ClXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for chlorine (Cl) for Q = -5: [ClXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for chlorine (Cl) for Q = -4: [ClXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for chlorine (Cl) for Q = -3: [ClXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for chlorine (Cl) for Q = -2: [ClXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for chlorine (Cl) for Q = -1: [ClXxLlZz]-

The number of compounds found is 26.

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

EN➝ 7 8 9 10 11 12
X+2Z = 0

[Cl]-
0

[ClL]-
0

[ClL2]-
0
X+2Z = 1 [ClZ]-
0

[ClX]-
0

[ClLX]-
0

X+2Z = 2

[ClZ]-
92%

[ClX2]-
0

[ClLX2]-
0
X+2Z = 3 [ClZ2]-
0

[ClXZ]-
0

[ClX3]-
0

X+2Z = 4

[ClZ2]-
4%

[ClX2Z]-
0

[ClX4]-
4%
X+2Z = 5 [ClZ3]-
0

[ClXZ2]-
0

[ClX3Z]-
0

X+2Z = 6

[ClZ3]-
0

[ClX2Z2]-
0

[ClX4Z]-
0
X+2Z = 7 [ClZ4]-
0

[ClXZ3]-
0

[ClX3Z2]-
0

X+2Z = 8

[ClZ4]-
0

[ClX2Z3]-
0

[ClX4Z2]-
0
X+2Z = 9 [ClZ5]-
0

[ClXZ4]-
0

[ClX3Z3]-
0

X+2Z = 10

[ClZ5]-
0

[ClX2Z4]-
0

[ClX4Z3]-
0
X+2Z = 11 [ClZ6]-
0

[ClXZ5]-
0

[ClX3Z4]-
0

X+2Z = 12

[ClZ6]-
0

[ClX2Z5]-
0

[ClX4Z4]-
0

## MLXZq± grid for chlorine (Cl) for Q = 0: [ClXxLlZz]

The number of compounds found is 4339.

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 chlorine with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12
X+2Z = 0 [Cl]
0

[ClL]
0

[ClL2]
0

X+2Z = 1

[ClX]
89%

[ClLX]
0

[ClL2X]
0
X+2Z = 2 [ClZ]
0

[ClX2]
0

[ClLX2]
0

X+2Z = 3

[ClXZ]
10%

[ClX3]
0.02%

[ClLX3]
0
X+2Z = 4 [ClZ2]
0.02%

[ClX2Z]
0

[ClX4]
0

X+2Z = 5

[ClXZ2]
1%

[ClX3Z]
0

[ClX5]
0
X+2Z = 6 [ClZ3]
0

[ClX2Z2]
0

[ClX4Z]
0

X+2Z = 7

[ClXZ3]
0

[ClX3Z2]
0

[ClX5Z]
0
X+2Z = 8 [ClZ4]
0

[ClX2Z3]
0

[ClX4Z2]
0

X+2Z = 9

[ClXZ4]
0

[ClX3Z3]
0

[ClX5Z2]
0
X+2Z = 10 [ClZ5]
0

[ClX2Z4]
0

[ClX4Z3]
0

X+2Z = 11

[ClXZ5]
0

[ClX3Z4]
0

[ClX5Z3]
0
X+2Z = 12 [ClZ6]
0

[ClX2Z5]
0

[ClX4Z4]
0

## MLXZq± grid for chlorine (Cl) for Q = 1: [ClXxLlZz]+

The number of compounds found is 12.

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 chlorine with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12
X+2Z = 0

[ClL]+
50%

[ClL2]+
0

[ClL3]+
0
X+2Z = 1 [ClX]+
0

[ClLX]+
0

[ClL2X]+
0

X+2Z = 2

[ClX2]+
17%

[ClLX2]+
0

[ClL2X2]+
0
X+2Z = 3 [ClXZ]+
0

[ClX3]+
0

[ClLX3]+
0

X+2Z = 4

[ClX2Z]+
0

[ClX4]+
25%

[ClLX4]+
0
X+2Z = 5 [ClXZ2]+
0

[ClX3Z]+
0

[ClX5]+
0

X+2Z = 6

[ClX2Z2]+
0

[ClX4Z]+
0

[ClX6]+
8%
X+2Z = 7 [ClXZ3]+
0

[ClX3Z2]+
0

[ClX5Z]+
0

X+2Z = 8

[ClX2Z3]+
0

[ClX4Z2]+
0

[ClX6Z]+
0
X+2Z = 9 [ClXZ4]+
0

[ClX3Z3]+
0

[ClX5Z2]+
0

X+2Z = 10

[ClX2Z4]+
0

[ClX4Z3]+
0

[ClX6Z2]+
0
X+2Z = 11 [ClXZ5]+
0

[ClX3Z4]+
0

[ClX5Z3]+
0

X+2Z = 12

[ClX2Z5]+
0

[ClX4Z4]+
0

[ClX6Z3]+
0

## MLXZq± grid for chlorine (Cl) for Q = 2: [ClXxLlZz]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 chlorine with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12
X+2Z = 0 [ClL]2+
0

[ClL2]2+
0

[ClL3]2+
0

X+2Z = 1

[ClLX]2+
0

[ClL2X]2+
0

[ClL3X]2+
0
X+2Z = 2 [ClX2]2+
0

[ClLX2]2+
0

[ClL2X2]2+
0

X+2Z = 3

[ClX3]2+
100%

[ClLX3]2+
0

[ClL2X3]2+
0
X+2Z = 4 [ClX2Z]2+
0

[ClX4]2+
0

[ClLX4]2+
0

X+2Z = 5

[ClX3Z]2+
0

[ClX5]2+
0

[ClLX5]2+
0
X+2Z = 6 [ClX2Z2]2+
0

[ClX4Z]2+
0

[ClX6]2+
0

X+2Z = 7

[ClX3Z2]2+
0

[ClX5Z]2+
0

[ClX7]2+
0
X+2Z = 8 [ClX2Z3]2+
0

[ClX4Z2]2+
0

[ClX6Z]2+
0

X+2Z = 9

[ClX3Z3]2+
0

[ClX5Z2]2+
0

[ClX7Z]2+
0
X+2Z = 10 [ClX2Z4]2+
0

[ClX4Z3]2+
0

[ClX6Z2]2+
0

X+2Z = 11

[ClX3Z4]2+
0

[ClX5Z3]2+
0

[ClX7Z2]2+
0
X+2Z = 12 [ClX2Z5]2+
0

[ClX4Z4]2+
0

[ClX6Z3]2+
0

## MLXZq± grid for chlorine (Cl) for Q = 3: [ClXxLlZz]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 chlorine with that [MLXZ] classification.

EN➝ 7 8 9 10 11 12
X+2Z = 0

[ClL2]3+
0

[ClL3]3+
0

[ClL4]3+
0
X+2Z = 1 [ClLX]3+
0

[ClL2X]3+
0

[ClL3X]3+
0

X+2Z = 2

[ClLX2]3+
0

[ClL2X2]3+
0

[ClL3X2]3+
0
X+2Z = 3 [ClX3]3+
0

[ClLX3]3+
0

[ClL2X3]3+
0

X+2Z = 4

[ClX4]3+
100%

[ClLX4]3+
0

[ClL2X4]3+
0
X+2Z = 5 [ClX3Z]3+
0

[ClX5]3+
0

[ClLX5]3+
0

X+2Z = 6

[ClX4Z]3+
0

[ClX6]3+
0

[ClLX6]3+
0
X+2Z = 7 [ClX3Z2]3+
0

[ClX5Z]3+
0

[ClX7]3+
0

X+2Z = 8

[ClX4Z2]3+
0

[ClX6Z]3+
0

[ClX8]3+
0
X+2Z = 9 [ClX3Z3]3+
0

[ClX5Z2]3+
0

[ClX7Z]3+
0

X+2Z = 10

[ClX4Z3]3+
0

[ClX6Z2]3+
0

[ClX8Z]3+
0
X+2Z = 11 [ClX3Z4]3+
0

[ClX5Z3]3+
0

[ClX7Z2]3+
0

X+2Z = 12

[ClX4Z4]3+
0

[ClX6Z3]3+
0

[ClX8Z2]3+
0

## MLXZq± grid for chlorine (Cl) for Q = 4: [ClXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for bromine (Br) for Q = -6: [BrXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for bromine (Br) for Q = -5: [BrXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for bromine (Br) for Q = -4: [BrXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for bromine (Br) for Q = -3: [BrXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for bromine (Br) for Q = -2: [BrXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for bromine (Br) for Q = -1: [BrXxLlZz]-

The number of compounds found is 19.

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 bromine with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14
X+2Z = 0 [Br]-
0

[BrL]-
0

[BrL2]-
0

[BrL3]-
0
X+2Z = 1

[BrX]-
0

[BrLX]-
0

[BrL2X]-
0

X+2Z = 2 [BrZ]-
74%

[BrX2]-
11%

[BrLX2]-
0

[BrL2X2]-
0
X+2Z = 3

[BrXZ]-
0

[BrX3]-
0

[BrLX3]-
0

X+2Z = 4 [BrZ2]-
5%

[BrX2Z]-
0

[BrX4]-
5%

[BrLX4]-
0
X+2Z = 5

[BrXZ2]-
0

[BrX3Z]-
0

[BrX5]-
0

X+2Z = 6 [BrZ3]-
0

[BrX2Z2]-
0

[BrX4Z]-
0

[BrX6]-
5%
X+2Z = 7

[BrXZ3]-
0

[BrX3Z2]-
0

[BrX5Z]-
0

X+2Z = 8 [BrZ4]-
0

[BrX2Z3]-
0

[BrX4Z2]-
0

[BrX6Z]-
0
X+2Z = 9

[BrXZ4]-
0

[BrX3Z3]-
0

[BrX5Z2]-
0

X+2Z = 10 [BrZ5]-
0

[BrX2Z4]-
0

[BrX4Z3]-
0

[BrX6Z2]-
0
X+2Z = 11

[BrXZ5]-
0

[BrX3Z4]-
0

[BrX5Z3]-
0

X+2Z = 12 [BrZ6]-
0

[BrX2Z5]-
0

[BrX4Z4]-
0

[BrX6Z3]-
0

## MLXZq± grid for bromine (Br) for Q = 0: [BrXxLlZz]

The number of compounds found is 1520.

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 bromine with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14
X+2Z = 0

[BrL]
0

[BrL2]
0

[BrL3]
0

X+2Z = 1 [BrX]
86%

[BrLX]
0

[BrL2X]
0

[BrL3X]
0
X+2Z = 2

[BrX2]
0

[BrLX2]
0

[BrL2X2]
0

X+2Z = 3 [BrXZ]
12%

[BrX3]
0.1%

[BrLX3]
0

[BrL2X3]
0
X+2Z = 4

[BrX2Z]
0

[BrX4]
0

[BrLX4]
0

X+2Z = 5 [BrXZ2]
2%

[BrX3Z]
0

[BrX5]
0.1%

[BrLX5]
0
X+2Z = 6

[BrX2Z2]
0

[BrX4Z]
0

[BrX6]
0

X+2Z = 7 [BrXZ3]
0.1%

[BrX3Z2]
0

[BrX5Z]
0

[BrX7]
0
X+2Z = 8

[BrX2Z3]
0

[BrX4Z2]
0

[BrX6Z]
0

X+2Z = 9 [BrXZ4]
0

[BrX3Z3]
0

[BrX5Z2]
0

[BrX7Z]
0
X+2Z = 10

[BrX2Z4]
0

[BrX4Z3]
0

[BrX6Z2]
0

X+2Z = 11 [BrXZ5]
0

[BrX3Z4]
0

[BrX5Z3]
0

[BrX7Z2]
0
X+2Z = 12

[BrX2Z5]
0

[BrX4Z4]
0

[BrX6Z3]
0

## MLXZq± grid for bromine (Br) for Q = 1: [BrXxLlZz]+

The number of compounds found is 25.

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 bromine with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14
X+2Z = 0 [BrL]+
60%

[BrL2]+
12%

[BrL3]+
0

[BrL4]+
0
X+2Z = 1

[BrLX]+
0

[BrL2X]+
0

[BrL3X]+
0

X+2Z = 2 [BrX2]+
12%

[BrLX2]+
0

[BrL2X2]+
0

[BrL3X2]+
0
X+2Z = 3

[BrX3]+
0

[BrLX3]+
0

[BrL2X3]+
0

X+2Z = 4 [BrX2Z]+
0

[BrX4]+
12%

[BrLX4]+
0

[BrL2X4]+
0
X+2Z = 5

[BrX3Z]+
0

[BrX5]+
0

[BrLX5]+
0

X+2Z = 6 [BrX2Z2]+
0

[BrX4Z]+
0

[BrX6]+
4%

[BrLX6]+
0
X+2Z = 7

[BrX3Z2]+
0

[BrX5Z]+
0

[BrX7]+
0

X+2Z = 8 [BrX2Z3]+
0

[BrX4Z2]+
0

[BrX6Z]+
0

[BrX8]+
0
X+2Z = 9

[BrX3Z3]+
0

[BrX5Z2]+
0

[BrX7Z]+
0

X+2Z = 10 [BrX2Z4]+
0

[BrX4Z3]+
0

[BrX6Z2]+
0

[BrX8Z]+
0
X+2Z = 11

[BrX3Z4]+
0

[BrX5Z3]+
0

[BrX7Z2]+
0

X+2Z = 12 [BrX2Z5]+
0

[BrX4Z4]+
0

[BrX6Z3]+
0

[BrX8Z2]+
0

## MLXZq± grid for bromine (Br) for Q = 2: [BrXxLlZz]2+

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 bromine with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14
X+2Z = 0

[BrL2]2+
0

[BrL3]2+
0

[BrL4]2+
0

X+2Z = 1 [BrLX]2+
0

[BrL2X]2+
0

[BrL3X]2+
0

[BrL4X]2+
0
X+2Z = 2

[BrLX2]2+
0

[BrL2X2]2+
0

[BrL3X2]2+
0

X+2Z = 3 [BrX3]2+
100%

[BrLX3]2+
0

[BrL2X3]2+
0

[BrL3X3]2+
0
X+2Z = 4

[BrX4]2+
0

[BrLX4]2+
0

[BrL2X4]2+
0

X+2Z = 5 [BrX3Z]2+
0

[BrX5]2+
0

[BrLX5]2+
0

[BrL2X5]2+
0
X+2Z = 6

[BrX4Z]2+
0

[BrX6]2+
0

[BrLX6]2+
0

X+2Z = 7 [BrX3Z2]2+
0

[BrX5Z]2+
0

[BrX7]2+
0

[BrLX7]2+
0
X+2Z = 8

[BrX4Z2]2+
0

[BrX6Z]2+
0

[BrX8]2+
0

X+2Z = 9 [BrX3Z3]2+
0

[BrX5Z2]2+
0

[BrX7Z]2+
0

[BrX9]2+
0
X+2Z = 10

[BrX4Z3]2+
0

[BrX6Z2]2+
0

[BrX8Z]2+
0

X+2Z = 11 [BrX3Z4]2+
0

[BrX5Z3]2+
0

[BrX7Z2]2+
0

[BrX9Z]2+
0
X+2Z = 12

[BrX4Z4]2+
0

[BrX6Z3]2+
0

[BrX8Z2]2+
0

## MLXZq± grid for bromine (Br) for Q = 3: [BrXxLlZz]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 bromine with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14
X+2Z = 0 [BrL2]3+
0

[BrL3]3+
0

[BrL4]3+
0

[BrL5]3+
0
X+2Z = 1

[BrL2X]3+
0

[BrL3X]3+
0

[BrL4X]3+
0

X+2Z = 2 [BrLX2]3+
0

[BrL2X2]3+
0

[BrL3X2]3+
0

[BrL4X2]3+
0
X+2Z = 3

[BrLX3]3+
0

[BrL2X3]3+
0

[BrL3X3]3+
0

X+2Z = 4 [BrX4]3+
100%

[BrLX4]3+
0

[BrL2X4]3+
0

[BrL3X4]3+
0
X+2Z = 5

[BrX5]3+
0

[BrLX5]3+
0

[BrL2X5]3+
0

X+2Z = 6 [BrX4Z]3+
0

[BrX6]3+
0

[BrLX6]3+
0

[BrL2X6]3+
0
X+2Z = 7

[BrX5Z]3+
0

[BrX7]3+
0

[BrLX7]3+
0

X+2Z = 8 [BrX4Z2]3+
0

[BrX6Z]3+
0

[BrX8]3+
0

[BrLX8]3+
0
X+2Z = 9

[BrX5Z2]3+
0

[BrX7Z]3+
0

[BrX9]3+
0

X+2Z = 10 [BrX4Z3]3+
0

[BrX6Z2]3+
0

[BrX8Z]3+
0

[BrX10]3+
0
X+2Z = 11

[BrX5Z3]3+
0

[BrX7Z2]3+
0

[BrX9Z]3+
0

X+2Z = 12 [BrX4Z4]3+
0

[BrX6Z3]3+
0

[BrX8Z2]3+
0

[BrX10Z]3+
0

## MLXZq± grid for bromine (Br) for Q = 4: [BrXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for iodine (I) for Q = -6: [IXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for iodine (I) for Q = -5: [IXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for iodine (I) for Q = -4: [IXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for iodine (I) for Q = -3: [IXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for iodine (I) for Q = -2: [IXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for iodine (I) for Q = -1: [IXxLlZz]-

The number of compounds found is 31.

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 iodine with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16
X+2Z = 0 [I]-
0

[IL]-
0

[IL2]-
0

[IL3]-
0

[IL4]-
0
X+2Z = 1

[IX]-
0

[ILX]-
0

[IL2X]-
0

[IL3X]-
0

X+2Z = 2 [IZ]-
42%

[IX2]-
35%

[ILX2]-
0

[IL2X2]-
0

[IL3X2]-
0
X+2Z = 3

[IXZ]-
0

[IX3]-
0

[ILX3]-
0

[IL2X3]-
0

X+2Z = 4 [IZ2]-
3%

[IX2Z]-
0

[IX4]-
10%

[ILX4]-
0

[IL2X4]-
0
X+2Z = 5

[IXZ2]-
0

[IX3Z]-
0

[IX5]-
0

[ILX5]-
0

X+2Z = 6 [IZ3]-
0

[IX2Z2]-
0

[IX4Z]-
0

[IX6]-
6%

[ILX6]-
0
X+2Z = 7

[IXZ3]-
0

[IX3Z2]-
0

[IX5Z]-
0

[IX7]-
0

X+2Z = 8 [IZ4]-
0

[IX2Z3]-
0

[IX4Z2]-
0

[IX6Z]-
0

[IX8]-
3%
X+2Z = 9

[IXZ4]-
0

[IX3Z3]-
0

[IX5Z2]-
0

[IX7Z]-
0

X+2Z = 10 [IZ5]-
0

[IX2Z4]-
0

[IX4Z3]-
0

[IX6Z2]-
0

[IX8Z]-
0
X+2Z = 11

[IXZ5]-
0

[IX3Z4]-
0

[IX5Z3]-
0

[IX7Z2]-
0

X+2Z = 12 [IZ6]-
0

[IX2Z5]-
0

[IX4Z4]-
0

[IX6Z3]-
0

[IX8Z2]-
0

## MLXZq± grid for iodine (I) for Q = 0: [IXxLlZz]

The number of compounds found is 1506.

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 iodine with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16
X+2Z = 0

[IL]
0

[IL2]
0

[IL3]
0

[IL4]
0

X+2Z = 1 [IX]
80%

[ILX]
2%

[IL2X]
0

[IL3X]
0

[IL4X]
0
X+2Z = 2

[IX2]
0

[ILX2]
0

[IL2X2]
0

[IL3X2]
0

X+2Z = 3 [IXZ]
14%

[IX3]
2%

[ILX3]
0.1%

[IL2X3]
0

[IL3X3]
0
X+2Z = 4

[IX2Z]
0

[IX4]
0

[ILX4]
0

[IL2X4]
0

X+2Z = 5 [IXZ2]
1%

[IX3Z]
0.1%

[IX5]
1%

[ILX5]
0

[IL2X5]
0
X+2Z = 6

[IX2Z2]
0

[IX4Z]
0

[IX6]
0

[ILX6]
0

X+2Z = 7 [IXZ3]
1%

[IX3Z2]
0

[IX5Z]
0

[IX7]
0.1%

[ILX7]
0
X+2Z = 8

[IX2Z3]
0

[IX4Z2]
0

[IX6Z]
0

[IX8]
0

X+2Z = 9 [IXZ4]
0

[IX3Z3]
0

[IX5Z2]
0

[IX7Z]
0

[IX9]
0
X+2Z = 10

[IX2Z4]
0

[IX4Z3]
0

[IX6Z2]
0

[IX8Z]
0

X+2Z = 11 [IXZ5]
0

[IX3Z4]
0

[IX5Z3]
0

[IX7Z2]
0

[IX9Z]
0
X+2Z = 12

[IX2Z5]
0

[IX4Z4]
0

[IX6Z3]
0

[IX8Z2]
0

## MLXZq± grid for iodine (I) for Q = 1: [IXxLlZz]+

The number of compounds found is 41.

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 iodine with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16
X+2Z = 0 [IL]+
27%

[IL2]+
15%

[IL3]+
0

[IL4]+
0

[IL5]+
0
X+2Z = 1

[ILX]+
0

[IL2X]+
0

[IL3X]+
0

[IL4X]+
0

X+2Z = 2 [IX2]+
34%

[ILX2]+
0

[IL2X2]+
0

[IL3X2]+
0

[IL4X2]+
0
X+2Z = 3

[IX3]+
0

[ILX3]+
0

[IL2X3]+
0

[IL3X3]+
0

X+2Z = 4 [IX2Z]+
0

[IX4]+
15%

[ILX4]+
0

[IL2X4]+
0

[IL3X4]+
0
X+2Z = 5

[IX3Z]+
0

[IX5]+
0

[ILX5]+
0

[IL2X5]+
0

X+2Z = 6 [IX2Z2]+
0

[IX4Z]+
0

[IX6]+
10%

[ILX6]+
0

[IL2X6]+
0
X+2Z = 7

[IX3Z2]+
0

[IX5Z]+
0

[IX7]+
0

[ILX7]+
0

X+2Z = 8 [IX2Z3]+
0

[IX4Z2]+
0

[IX6Z]+
0

[IX8]+
0

[ILX8]+
0
X+2Z = 9

[IX3Z3]+
0

[IX5Z2]+
0

[IX7Z]+
0

[IX9]+
0

X+2Z = 10 [IX2Z4]+
0

[IX4Z3]+
0

[IX6Z2]+
0

[IX8Z]+
0

[IX10]+
0
X+2Z = 11

[IX3Z4]+
0

[IX5Z3]+
0

[IX7Z2]+
0

[IX9Z]+
0

X+2Z = 12 [IX2Z5]+
0

[IX4Z4]+
0

[IX6Z3]+
0

[IX8Z2]+
0

[IX10Z]+
0

## MLXZq± grid for iodine (I) for Q = 2: [IXxLlZz]2+

The number of compounds found is 5.

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

EN➝ 8 9 10 11 12 13 14 15 16
X+2Z = 0

[IL2]2+
0

[IL3]2+
0

[IL4]2+
0

[IL5]2+
0

X+2Z = 1 [ILX]2+
0

[IL2X]2+
0

[IL3X]2+
0

[IL4X]2+
0

[IL5X]2+
0
X+2Z = 2

[ILX2]2+
0

[IL2X2]2+
0

[IL3X2]2+
0

[IL4X2]2+
0

X+2Z = 3 [IX3]2+
80%

[ILX3]2+
0

[IL2X3]2+
0

[IL3X3]2+
0

[IL4X3]2+
0
X+2Z = 4

[IX4]2+
0

[ILX4]2+
0

[IL2X4]2+
0

[IL3X4]2+
0

X+2Z = 5 [IX3Z]2+
0

[IX5]2+
20%

[ILX5]2+
0

[IL2X5]2+
0

[IL3X5]2+
0
X+2Z = 6

[IX4Z]2+
0

[IX6]2+
0

[ILX6]2+
0

[IL2X6]2+
0

X+2Z = 7 [IX3Z2]2+
0

[IX5Z]2+
0

[IX7]2+
0

[ILX7]2+
0

[IL2X7]2+
0
X+2Z = 8

[IX4Z2]2+
0

[IX6Z]2+
0

[IX8]2+
0

[ILX8]2+
0

X+2Z = 9 [IX3Z3]2+
0

[IX5Z2]2+
0

[IX7Z]2+
0

[IX9]2+
0

[ILX9]2+
0
X+2Z = 10

[IX4Z3]2+
0

[IX6Z2]2+
0

[IX8Z]2+
0

[IX10]2+
0

X+2Z = 11 [IX3Z4]2+
0

[IX5Z3]2+
0

[IX7Z2]2+
0

[IX9Z]2+
0

[IX11]2+
0
X+2Z = 12

[IX4Z4]2+
0

[IX6Z3]2+
0

[IX8Z2]2+
0

[IX10Z]2+
0

## MLXZq± grid for iodine (I) for Q = 3: [IXxLlZz]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 iodine with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16
X+2Z = 0 [IL2]3+
0

[IL3]3+
0

[IL4]3+
0

[IL5]3+
0

[IL6]3+
0
X+2Z = 1

[IL2X]3+
0

[IL3X]3+
0

[IL4X]3+
0

[IL5X]3+
0

X+2Z = 2 [ILX2]3+
0

[IL2X2]3+
0

[IL3X2]3+
0

[IL4X2]3+
0

[IL5X2]3+
0
X+2Z = 3

[ILX3]3+
0

[IL2X3]3+
0

[IL3X3]3+
0

[IL4X3]3+
0

X+2Z = 4 [IX4]3+
100%

[ILX4]3+
0

[IL2X4]3+
0

[IL3X4]3+
0

[IL4X4]3+
0
X+2Z = 5

[IX5]3+
0

[ILX5]3+
0

[IL2X5]3+
0

[IL3X5]3+
0

X+2Z = 6 [IX4Z]3+
0

[IX6]3+
0

[ILX6]3+
0

[IL2X6]3+
0

[IL3X6]3+
0
X+2Z = 7

[IX5Z]3+
0

[IX7]3+
0

[ILX7]3+
0

[IL2X7]3+
0

X+2Z = 8 [IX4Z2]3+
0

[IX6Z]3+
0

[IX8]3+
0

[ILX8]3+
0

[IL2X8]3+
0
X+2Z = 9

[IX5Z2]3+
0

[IX7Z]3+
0

[IX9]3+
0

[ILX9]3+
0

X+2Z = 10 [IX4Z3]3+
0

[IX6Z2]3+
0

[IX8Z]3+
0

[IX10]3+
0

[ILX10]3+
0
X+2Z = 11

[IX5Z3]3+
0

[IX7Z2]3+
0

[IX9Z]3+
0

[IX11]3+
0

X+2Z = 12 [IX4Z4]3+
0

[IX6Z3]3+
0

[IX8Z2]3+
0

[IX10Z]3+
0

[IX12]3+
0

## MLXZq± grid for iodine (I) for Q = 4: [IXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = -6: [AtXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = -5: [AtXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = -4: [AtXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = -3: [AtXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = -2: [AtXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = -1: [AtXxLlZz]-

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = 0: [AtXxLlZz]

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = 1: [AtXxLlZz]+

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = 2: [AtXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = 3: [AtXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for astatine (At) for Q = 4: [AtXxLlZz]4+

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = -6: [TsXxLlZz]6-

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = -5: [TsXxLlZz]5-

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = -4: [TsXxLlZz]4-

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = -3: [TsXxLlZz]3-

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = -2: [TsXxLlZz]2-

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = -1: [TsXxLlZz]-

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = 0: [TsXxLlZz]

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = 1: [TsXxLlZz]+

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = 2: [TsXxLlZz]2+

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = 3: [TsXxLlZz]3+

The number of compounds found is 0.

## MLXZq± grid for tennessine (Ts) for Q = 4: [TsXxLlZz]4+

The number of compounds found is 0.