MLXZ Grid

MLXZ grid for helium (He) for Q = -6: [HeXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for helium (He) for Q = -5: [HeXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for helium (He) for Q = -4: [HeXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for helium (He) for Q = -3: [HeXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for helium (He) for Q = -2: [HeXxLlZz]2-

The number of compounds found is 0.

MLXZ grid for helium (He) for Q = -1: [HeXxLlZz]-

The number of compounds found is 0.

MLXZ grid for helium (He) for Q = 0: [HeXxLlZz]

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 helium with that [MLXZ] classification.

EN➝ 2
X+2Z = 0 [He]
100%
X+2Z = 1  
 
X+2Z = 2 [HeZ]
0
X+2Z = 3  
 
X+2Z = 4 [HeZ2]
0
X+2Z = 5  
 
X+2Z = 6 [HeZ3]
0
X+2Z = 7  
 
X+2Z = 8 [HeZ4]
0
X+2Z = 9  
 
X+2Z = 10 [HeZ5]
0
X+2Z = 11  
 
X+2Z = 12 [HeZ6]
0

MLXZ grid for helium (He) for Q = 1: [HeXxLlZz]+

The number of compounds found is 0.

MLXZ grid for helium (He) for Q = 2: [HeXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for helium (He) for Q = 3: [HeXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for helium (He) for Q = 4: [HeXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = -6: [NeXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = -5: [NeXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = -4: [NeXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = -3: [NeXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = -2: [NeXxLlZz]2-

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = -1: [NeXxLlZz]-

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = 0: [NeXxLlZz]

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 neon with that [MLXZ] classification.

EN➝ 8
X+2Z = 0 [Ne]
100%
X+2Z = 1  
 
X+2Z = 2 [NeZ]
0
X+2Z = 3  
 
X+2Z = 4 [NeZ2]
0
X+2Z = 5  
 
X+2Z = 6 [NeZ3]
0
X+2Z = 7  
 
X+2Z = 8 [NeZ4]
0
X+2Z = 9  
 
X+2Z = 10 [NeZ5]
0
X+2Z = 11  
 
X+2Z = 12 [NeZ6]
0

MLXZ grid for neon (Ne) for Q = 1: [NeXxLlZz]+

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = 2: [NeXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = 3: [NeXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for neon (Ne) for Q = 4: [NeXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = -6: [ArXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = -5: [ArXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = -4: [ArXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = -3: [ArXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = -2: [ArXxLlZz]2-

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = -1: [ArXxLlZz]-

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = 0: [ArXxLlZz]

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 argon with that [MLXZ] classification.

EN➝ 8
X+2Z = 0 [Ar]
100%
X+2Z = 1  
 
X+2Z = 2 [ArZ]
0
X+2Z = 3  
 
X+2Z = 4 [ArZ2]
0
X+2Z = 5  
 
X+2Z = 6 [ArZ3]
0
X+2Z = 7  
 
X+2Z = 8 [ArZ4]
0
X+2Z = 9  
 
X+2Z = 10 [ArZ5]
0
X+2Z = 11  
 
X+2Z = 12 [ArZ6]
0

MLXZ grid for argon (Ar) for Q = 1: [ArXxLlZz]+

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = 2: [ArXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = 3: [ArXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for argon (Ar) for Q = 4: [ArXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for krypton (Kr) for Q = -6: [KrXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for krypton (Kr) for Q = -5: [KrXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for krypton (Kr) for Q = -4: [KrXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for krypton (Kr) for Q = -3: [KrXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for krypton (Kr) for Q = -2: [KrXxLlZz]2-

The number of compounds found is 0.

MLXZ grid for krypton (Kr) for Q = -1: [KrXxLlZz]-

The number of compounds found is 0.

MLXZ grid for krypton (Kr) for Q = 0: [KrXxLlZz]

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 krypton with that [MLXZ] classification.

EN➝ 8 9 10
X+2Z = 0 [Kr]
50%
 
 
[KrL]
0
X+2Z = 1  
 
[KrX]
0
 
 
X+2Z = 2 [KrZ]
0
 
 
[KrX2]
50%
X+2Z = 3  
 
[KrXZ]
0
 
 
X+2Z = 4 [KrZ2]
0
 
 
[KrX2Z]
0
X+2Z = 5  
 
[KrXZ2]
0
 
 
X+2Z = 6 [KrZ3]
0
 
 
[KrX2Z2]
0
X+2Z = 7  
 
[KrXZ3]
0
 
 
X+2Z = 8 [KrZ4]
0
 
 
[KrX2Z3]
0
X+2Z = 9  
 
[KrXZ4]
0
 
 
X+2Z = 10 [KrZ5]
0
 
 
[KrX2Z4]
0
X+2Z = 11  
 
[KrXZ5]
0
 
 
X+2Z = 12 [KrZ6]
0
 
 
[KrX2Z5]
0

MLXZ grid for krypton (Kr) for Q = 1: [KrXxLlZz]+

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 krypton with that [MLXZ] classification.

EN➝ 8 9 10
X+2Z = 0  
 
[KrL]+
0
 
 
X+2Z = 1 [KrX]+
0
 
 
[KrLX]+
100%
X+2Z = 2  
 
[KrX2]+
0
 
 
X+2Z = 3 [KrXZ]+
0
 
 
[KrX3]+
0
X+2Z = 4  
 
[KrX2Z]+
0
 
 
X+2Z = 5 [KrXZ2]+
0
 
 
[KrX3Z]+
0
X+2Z = 6  
 
[KrX2Z2]+
0
 
 
X+2Z = 7 [KrXZ3]+
0
 
 
[KrX3Z2]+
0
X+2Z = 8  
 
[KrX2Z3]+
0
 
 
X+2Z = 9 [KrXZ4]+
0
 
 
[KrX3Z3]+
0
X+2Z = 10  
 
[KrX2Z4]+
0
 
 
X+2Z = 11 [KrXZ5]+
0
 
 
[KrX3Z4]+
0
X+2Z = 12  
 
[KrX2Z5]+
0
 
 

MLXZ grid for krypton (Kr) for Q = 2: [KrXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for krypton (Kr) for Q = 3: [KrXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for krypton (Kr) for Q = 4: [KrXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for xenon (Xe) for Q = -6: [XeXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for xenon (Xe) for Q = -5: [XeXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for xenon (Xe) for Q = -4: [XeXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for xenon (Xe) for Q = -3: [XeXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for xenon (Xe) for Q = -2: [XeXxLlZz]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 xenon with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [XeZ]2-
0
 
 
[Xe]2-
0
 
 
[XeL]2-
0
 
 
[XeL2]2-
0
 
 
[XeL3]2-
0
 
 
[XeL4]2-
0
X+2Z = 1  
 
[XeZ]2-
0
 
 
[XeX]2-
0
 
 
[XeLX]2-
0
 
 
[XeL2X]2-
0
 
 
[XeL3X]2-
0
 
 
X+2Z = 2 [XeZ2]2-
0
 
 
[XeZ]2-
0
 
 
[XeX2]2-
0
 
 
[XeLX2]2-
0
 
 
[XeL2X2]2-
0
 
 
[XeL3X2]2-
0
X+2Z = 3  
 
[XeZ2]2-
0
 
 
[XeXZ]2-
0
 
 
[XeX3]2-
0
 
 
[XeLX3]2-
0
 
 
[XeL2X3]2-
0
 
 
X+2Z = 4 [XeZ3]2-
0
 
 
[XeZ2]2-
0
 
 
[XeX2Z]2-
0
 
 
[XeX4]2-
0
 
 
[XeLX4]2-
0
 
 
[XeL2X4]2-
0
X+2Z = 5  
 
[XeZ3]2-
0
 
 
[XeXZ2]2-
0
 
 
[XeX3Z]2-
0
 
 
[XeX5]2-
0
 
 
[XeLX5]2-
0
 
 
X+2Z = 6 [XeZ4]2-
0
 
 
[XeZ3]2-
0
 
 
[XeX2Z2]2-
0
 
 
[XeX4Z]2-
0
 
 
[XeX6]2-
0
 
 
[XeLX6]2-
0
X+2Z = 7  
 
[XeZ4]2-
0
 
 
[XeXZ3]2-
0
 
 
[XeX3Z2]2-
0
 
 
[XeX5Z]2-
0
 
 
[XeX7]2-
0
 
 
X+2Z = 8 [XeZ5]2-
0
 
 
[XeZ4]2-
0
 
 
[XeX2Z3]2-
0
 
 
[XeX4Z2]2-
50%
 
 
[XeX6Z]2-
0
 
 
[XeX8]2-
50%
X+2Z = 9  
 
[XeZ5]2-
0
 
 
[XeXZ4]2-
0
 
 
[XeX3Z3]2-
0
 
 
[XeX5Z2]2-
0
 
 
[XeX7Z]2-
0
 
 
X+2Z = 10 [XeZ6]2-
0
 
 
[XeZ5]2-
0
 
 
[XeX2Z4]2-
0
 
 
[XeX4Z3]2-
0
 
 
[XeX6Z2]2-
0
 
 
[XeX8Z]2-
0
X+2Z = 11  
 
[XeZ6]2-
0
 
 
[XeXZ5]2-
0
 
 
[XeX3Z4]2-
0
 
 
[XeX5Z3]2-
0
 
 
[XeX7Z2]2-
0
 
 
X+2Z = 12 [XeZ7]2-
0
 
 
[XeZ6]2-
0
 
 
[XeX2Z5]2-
0
 
 
[XeX4Z4]2-
0
 
 
[XeX6Z3]2-
0
 
 
[XeX8Z2]2-
0

MLXZ grid for xenon (Xe) for Q = -1: [XeXxLlZz]-

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 xenon with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0  
 
[Xe]-
0
 
 
[XeL]-
0
 
 
[XeL2]-
0
 
 
[XeL3]-
0
 
 
[XeL4]-
0
 
 
X+2Z = 1 [XeZ]-
0
 
 
[XeX]-
0
 
 
[XeLX]-
0
 
 
[XeL2X]-
0
 
 
[XeL3X]-
0
 
 
[XeL4X]-
0
X+2Z = 2  
 
[XeZ]-
0
 
 
[XeX2]-
0
 
 
[XeLX2]-
0
 
 
[XeL2X2]-
0
 
 
[XeL3X2]-
0
 
 
X+2Z = 3 [XeZ2]-
0
 
 
[XeXZ]-
0
 
 
[XeX3]-
0
 
 
[XeLX3]-
0
 
 
[XeL2X3]-
0
 
 
[XeL3X3]-
0
X+2Z = 4  
 
[XeZ2]-
0
 
 
[XeX2Z]-
0
 
 
[XeX4]-
0
 
 
[XeLX4]-
0
 
 
[XeL2X4]-
0
 
 
X+2Z = 5 [XeZ3]-
0
 
 
[XeXZ2]-
0
 
 
[XeX3Z]-
0
 
 
[XeX5]-
50%
 
 
[XeLX5]-
0
 
 
[XeL2X5]-
0
X+2Z = 6  
 
[XeZ3]-
0
 
 
[XeX2Z2]-
0
 
 
[XeX4Z]-
0
 
 
[XeX6]-
0
 
 
[XeLX6]-
0
 
 
X+2Z = 7 [XeZ4]-
0
 
 
[XeXZ3]-
0
 
 
[XeX3Z2]-
0
 
 
[XeX5Z]-
0
 
 
[XeX7]-
50%
 
 
[XeLX7]-
0
X+2Z = 8  
 
[XeZ4]-
0
 
 
[XeX2Z3]-
0
 
 
[XeX4Z2]-
0
 
 
[XeX6Z]-
0
 
 
[XeX8]-
0
 
 
X+2Z = 9 [XeZ5]-
0
 
 
[XeXZ4]-
0
 
 
[XeX3Z3]-
0
 
 
[XeX5Z2]-
0
 
 
[XeX7Z]-
0
 
 
[XeX9]-
0
X+2Z = 10  
 
[XeZ5]-
0
 
 
[XeX2Z4]-
0
 
 
[XeX4Z3]-
0
 
 
[XeX6Z2]-
0
 
 
[XeX8Z]-
0
 
 
X+2Z = 11 [XeZ6]-
0
 
 
[XeXZ5]-
0
 
 
[XeX3Z4]-
0
 
 
[XeX5Z3]-
0
 
 
[XeX7Z2]-
0
 
 
[XeX9Z]-
0
X+2Z = 12  
 
[XeZ6]-
0
 
 
[XeX2Z5]-
0
 
 
[XeX4Z4]-
0
 
 
[XeX6Z3]-
0
 
 
[XeX8Z2]-
0
 
 

MLXZ grid for xenon (Xe) for Q = 0: [XeXxLlZz]

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 xenon with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [Xe]
3%
 
 
[XeL]
0
 
 
[XeL2]
0
 
 
[XeL3]
0
 
 
[XeL4]
0
 
 
[XeL5]
0
X+2Z = 1  
 
[XeX]
0
 
 
[XeLX]
0
 
 
[XeL2X]
0
 
 
[XeL3X]
0
 
 
[XeL4X]
0
 
 
X+2Z = 2 [XeZ]
10%
 
 
[XeX2]
33%
 
 
[XeLX2]
0
 
 
[XeL2X2]
0
 
 
[XeL3X2]
0
 
 
[XeL4X2]
0
X+2Z = 3  
 
[XeXZ]
0
 
 
[XeX3]
0
 
 
[XeLX3]
0
 
 
[XeL2X3]
0
 
 
[XeL3X3]
0
 
 
X+2Z = 4 [XeZ2]
0
 
 
[XeX2Z]
3%
 
 
[XeX4]
13%
 
 
[XeLX4]
0
 
 
[XeL2X4]
0
 
 
[XeL3X4]
0
X+2Z = 5  
 
[XeXZ2]
0
 
 
[XeX3Z]
0
 
 
[XeX5]
0
 
 
[XeLX5]
0
 
 
[XeL2X5]
0
 
 
X+2Z = 6 [XeZ3]
3%
 
 
[XeX2Z2]
8%
 
 
[XeX4Z]
10%
 
 
[XeX6]
18%
 
 
[XeLX6]
0
 
 
[XeL2X6]
0
X+2Z = 7  
 
[XeXZ3]
0
 
 
[XeX3Z2]
0
 
 
[XeX5Z]
0
 
 
[XeX7]
0
 
 
[XeLX7]
0
 
 
X+2Z = 8 [XeZ4]
0
 
 
[XeX2Z3]
0
 
 
[XeX4Z2]
0
 
 
[XeX6Z]
0
 
 
[XeX8]
0
 
 
[XeLX8]
0
X+2Z = 9  
 
[XeXZ4]
0
 
 
[XeX3Z3]
0
 
 
[XeX5Z2]
0
 
 
[XeX7Z]
0
 
 
[XeX9]
0
 
 
X+2Z = 10 [XeZ5]
0
 
 
[XeX2Z4]
0
 
 
[XeX4Z3]
0
 
 
[XeX6Z2]
0
 
 
[XeX8Z]
0
 
 
[XeX10]
0
X+2Z = 11  
 
[XeXZ5]
0
 
 
[XeX3Z4]
0
 
 
[XeX5Z3]
0
 
 
[XeX7Z2]
0
 
 
[XeX9Z]
0
 
 
X+2Z = 12 [XeZ6]
0
 
 
[XeX2Z5]
0
 
 
[XeX4Z4]
0
 
 
[XeX6Z3]
0
 
 
[XeX8Z2]
0
 
 
[XeX10Z]
0

MLXZ grid for xenon (Xe) for Q = 1: [XeXxLlZz]+

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 xenon with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0  
 
[XeL]+
0
 
 
[XeL2]+
0
 
 
[XeL3]+
0
 
 
[XeL4]+
0
 
 
[XeL5]+
0
 
 
X+2Z = 1 [XeX]+
35%
 
 
[XeLX]+
38%
 
 
[XeL2X]+
0
 
 
[XeL3X]+
0
 
 
[XeL4X]+
0
 
 
[XeL5X]+
0
X+2Z = 2  
 
[XeX2]+
0
 
 
[XeLX2]+
0
 
 
[XeL2X2]+
0
 
 
[XeL3X2]+
0
 
 
[XeL4X2]+
0
 
 
X+2Z = 3 [XeXZ]+
0
 
 
[XeX3]+
8%
 
 
[XeLX3]+
0
 
 
[XeL2X3]+
0
 
 
[XeL3X3]+
0
 
 
[XeL4X3]+
0
X+2Z = 4  
 
[XeX2Z]+
0
 
 
[XeX4]+
0
 
 
[XeLX4]+
0
 
 
[XeL2X4]+
0
 
 
[XeL3X4]+
0
 
 
X+2Z = 5 [XeXZ2]+
4%
 
 
[XeX3Z]+
12%
 
 
[XeX5]+
4%
 
 
[XeLX5]+
0
 
 
[XeL2X5]+
0
 
 
[XeL3X5]+
0
X+2Z = 6  
 
[XeX2Z2]+
0
 
 
[XeX4Z]+
0
 
 
[XeX6]+
0
 
 
[XeLX6]+
0
 
 
[XeL2X6]+
0
 
 
X+2Z = 7 [XeXZ3]+
0
 
 
[XeX3Z2]+
0
 
 
[XeX5Z]+
0
 
 
[XeX7]+
0
 
 
[XeLX7]+
0
 
 
[XeL2X7]+
0
X+2Z = 8  
 
[XeX2Z3]+
0
 
 
[XeX4Z2]+
0
 
 
[XeX6Z]+
0
 
 
[XeX8]+
0
 
 
[XeLX8]+
0
 
 
X+2Z = 9 [XeXZ4]+
0
 
 
[XeX3Z3]+
0
 
 
[XeX5Z2]+
0
 
 
[XeX7Z]+
0
 
 
[XeX9]+
0
 
 
[XeLX9]+
0
X+2Z = 10  
 
[XeX2Z4]+
0
 
 
[XeX4Z3]+
0
 
 
[XeX6Z2]+
0
 
 
[XeX8Z]+
0
 
 
[XeX10]+
0
 
 
X+2Z = 11 [XeXZ5]+
0
 
 
[XeX3Z4]+
0
 
 
[XeX5Z3]+
0
 
 
[XeX7Z2]+
0
 
 
[XeX9Z]+
0
 
 
[XeX11]+
0
X+2Z = 12  
 
[XeX2Z5]+
0
 
 
[XeX4Z4]+
0
 
 
[XeX6Z3]+
0
 
 
[XeX8Z2]+
0
 
 
[XeX10Z]+
0
 
 

MLXZ grid for xenon (Xe) for Q = 2: [XeXxLlZz]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 xenon with that [MLXZ] classification.

EN➝ 8 9 10 11 12 13 14 15 16 17 18
X+2Z = 0 [XeL]2+
0
 
 
[XeL2]2+
0
 
 
[XeL3]2+
0
 
 
[XeL4]2+
0
 
 
[XeL5]2+
0
 
 
[XeL6]2+
0
X+2Z = 1  
 
[XeLX]2+
0
 
 
[XeL2X]2+
0
 
 
[XeL3X]2+
0
 
 
[XeL4X]2+
0
 
 
[XeL5X]2+
0
 
 
X+2Z = 2 [XeX2]2+
50%
 
 
[XeLX2]2+
0
 
 
[XeL2X2]2+
0
 
 
[XeL3X2]2+
0
 
 
[XeL4X2]2+
0
 
 
[XeL5X2]2+
0
X+2Z = 3  
 
[XeX3]2+
0
 
 
[XeLX3]2+
0
 
 
[XeL2X3]2+
0
 
 
[XeL3X3]2+
0
 
 
[XeL4X3]2+
0
 
 
X+2Z = 4 [XeX2Z]2+
0
 
 
[XeX4]2+
0
 
 
[XeLX4]2+
0
 
 
[XeL2X4]2+
0
 
 
[XeL3X4]2+
0
 
 
[XeL4X4]2+
0
X+2Z = 5  
 
[XeX3Z]2+
0
 
 
[XeX5]2+
0
 
 
[XeLX5]2+
0
 
 
[XeL2X5]2+
0
 
 
[XeL3X5]2+
0
 
 
X+2Z = 6 [XeX2Z2]2+
0
 
 
[XeX4Z]2+
0
 
 
[XeX6]2+
50%
 
 
[XeLX6]2+
0
 
 
[XeL2X6]2+
0
 
 
[XeL3X6]2+
0
X+2Z = 7  
 
[XeX3Z2]2+
0
 
 
[XeX5Z]2+
0
 
 
[XeX7]2+
0
 
 
[XeLX7]2+
0
 
 
[XeL2X7]2+
0
 
 
X+2Z = 8 [XeX2Z3]2+
0
 
 
[XeX4Z2]2+
0
 
 
[XeX6Z]2+
0
 
 
[XeX8]2+
0
 
 
[XeLX8]2+
0
 
 
[XeL2X8]2+
0
X+2Z = 9  
 
[XeX3Z3]2+
0
 
 
[XeX5Z2]2+
0
 
 
[XeX7Z]2+
0
 
 
[XeX9]2+
0
 
 
[XeLX9]2+
0
 
 
X+2Z = 10 [XeX2Z4]2+
0
 
 
[XeX4Z3]2+
0
 
 
[XeX6Z2]2+
0
 
 
[XeX8Z]2+
0
 
 
[XeX10]2+
0
 
 
[XeLX10]2+
0
X+2Z = 11  
 
[XeX3Z4]2+
0
 
 
[XeX5Z3]2+
0
 
 
[XeX7Z2]2+
0
 
 
[XeX9Z]2+
0
 
 
[XeX11]2+
0
 
 
X+2Z = 12 [XeX2Z5]2+
0
 
 
[XeX4Z4]2+
0
 
 
[XeX6Z3]2+
0
 
 
[XeX8Z2]2+
0
 
 
[XeX10Z]2+
0
 
 
[XeX12]2+
0

MLXZ grid for xenon (Xe) for Q = 3: [XeXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for xenon (Xe) for Q = 4: [XeXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = -6: [RnXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = -5: [RnXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = -4: [RnXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = -3: [RnXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = -2: [RnXxLlZz]2-

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = -1: [RnXxLlZz]-

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = 0: [RnXxLlZz]

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 radon with that [MLXZ] classification.

EN➝ 8
X+2Z = 0 [Rn]
100%
X+2Z = 1  
 
X+2Z = 2 [RnZ]
0
X+2Z = 3  
 
X+2Z = 4 [RnZ2]
0
X+2Z = 5  
 
X+2Z = 6 [RnZ3]
0
X+2Z = 7  
 
X+2Z = 8 [RnZ4]
0
X+2Z = 9  
 
X+2Z = 10 [RnZ5]
0
X+2Z = 11  
 
X+2Z = 12 [RnZ6]
0

MLXZ grid for radon (Rn) for Q = 1: [RnXxLlZz]+

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = 2: [RnXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = 3: [RnXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for radon (Rn) for Q = 4: [RnXxLlZz]4+

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = -6: [OgXxLlZz]6-

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = -5: [OgXxLlZz]5-

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = -4: [OgXxLlZz]4-

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = -3: [OgXxLlZz]3-

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = -2: [OgXxLlZz]2-

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = -1: [OgXxLlZz]-

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = 0: [OgXxLlZz]

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = 1: [OgXxLlZz]+

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = 2: [OgXxLlZz]2+

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = 3: [OgXxLlZz]3+

The number of compounds found is 0.

MLXZ grid for oganesson (Og) for Q = 4: [OgXxLlZz]4+

The number of compounds found is 0.