MLXZ^{q±} grid for helium (He) for Q = 6: [HeX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for helium (He) for Q = 5: [HeX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for helium (He) for Q = 4: [HeX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for helium (He) for Q = 3: [HeX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for helium (He) for Q = 2: [HeX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for helium (He) for Q = 1: [HeX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 0.
MLXZ^{q±} grid for helium (He) for Q = 0: [HeX_{x}L_{l}Z_{z}]^{}
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]^{q±} 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]^{q±} classification.
EN➝  2 

X+2Z = 0  [He] 100% 
X+2Z = 1  
X+2Z = 2  [HeZ] 0 
X+2Z = 3  
X+2Z = 4  [HeZ_{2}] 0 
X+2Z = 5  
X+2Z = 6  [HeZ_{3}] 0 
X+2Z = 7  
X+2Z = 8  [HeZ_{4}] 0 
X+2Z = 9  
X+2Z = 10  [HeZ_{5}] 0 
X+2Z = 11  
X+2Z = 12  [HeZ_{6}] 0 
MLXZ^{q±} grid for helium (He) for Q = 1: [HeX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 0.
MLXZ^{q±} grid for helium (He) for Q = 2: [HeX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for helium (He) for Q = 3: [HeX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for helium (He) for Q = 4: [HeX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 6: [NeX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 5: [NeX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 4: [NeX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 3: [NeX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 2: [NeX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 1: [NeX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 0: [NeX_{x}L_{l}Z_{z}]^{}
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]^{q±} 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]^{q±} classification.
EN➝  8 

X+2Z = 0  [Ne] 100% 
X+2Z = 1  
X+2Z = 2  [NeZ] 0 
X+2Z = 3  
X+2Z = 4  [NeZ_{2}] 0 
X+2Z = 5  
X+2Z = 6  [NeZ_{3}] 0 
X+2Z = 7  
X+2Z = 8  [NeZ_{4}] 0 
X+2Z = 9  
X+2Z = 10  [NeZ_{5}] 0 
X+2Z = 11  
X+2Z = 12  [NeZ_{6}] 0 
MLXZ^{q±} grid for neon (Ne) for Q = 1: [NeX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 2: [NeX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 3: [NeX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for neon (Ne) for Q = 4: [NeX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 6: [ArX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 5: [ArX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 4: [ArX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 3: [ArX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 2: [ArX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 1: [ArX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 0: [ArX_{x}L_{l}Z_{z}]^{}
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]^{q±} 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]^{q±} classification.
EN➝  8 

X+2Z = 0  [Ar] 100% 
X+2Z = 1  
X+2Z = 2  [ArZ] 0 
X+2Z = 3  
X+2Z = 4  [ArZ_{2}] 0 
X+2Z = 5  
X+2Z = 6  [ArZ_{3}] 0 
X+2Z = 7  
X+2Z = 8  [ArZ_{4}] 0 
X+2Z = 9  
X+2Z = 10  [ArZ_{5}] 0 
X+2Z = 11  
X+2Z = 12  [ArZ_{6}] 0 
MLXZ^{q±} grid for argon (Ar) for Q = 1: [ArX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 2: [ArX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 3: [ArX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for argon (Ar) for Q = 4: [ArX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for krypton (Kr) for Q = 6: [KrX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for krypton (Kr) for Q = 5: [KrX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for krypton (Kr) for Q = 4: [KrX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for krypton (Kr) for Q = 3: [KrX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for krypton (Kr) for Q = 2: [KrX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for krypton (Kr) for Q = 1: [KrX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 0.
MLXZ^{q±} grid for krypton (Kr) for Q = 0: [KrX_{x}L_{l}Z_{z}]^{}
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]^{q±} 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]^{q±} classification.
EN➝  8  9  10 

X+2Z = 0  [Kr] 50% 

[KrL] 0 
X+2Z = 1  
[KrX] 0 

X+2Z = 2  [KrZ] 0 

[KrX_{2}] 50% 
X+2Z = 3  
[KrXZ] 0 

X+2Z = 4  [KrZ_{2}] 0 

[KrX_{2}Z] 0 
X+2Z = 5  
[KrXZ_{2}] 0 

X+2Z = 6  [KrZ_{3}] 0 

[KrX_{2}Z_{2}] 0 
X+2Z = 7  
[KrXZ_{3}] 0 

X+2Z = 8  [KrZ_{4}] 0 

[KrX_{2}Z_{3}] 0 
X+2Z = 9  
[KrXZ_{4}] 0 

X+2Z = 10  [KrZ_{5}] 0 

[KrX_{2}Z_{4}] 0 
X+2Z = 11  
[KrXZ_{5}] 0 

X+2Z = 12  [KrZ_{6}] 0 

[KrX_{2}Z_{5}] 0 
MLXZ^{q±} grid for krypton (Kr) for Q = 1: [KrX_{x}L_{l}Z_{z}]^{+}
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]^{q±} 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]^{q±} classification.
EN➝  8  9  10 

X+2Z = 0  
[KrL]^{+} 0 

X+2Z = 1  [KrX]^{+} 0 

[KrLX]^{+} 100% 
X+2Z = 2  
[KrX_{2}]^{+} 0 

X+2Z = 3  [KrXZ]^{+} 0 

[KrX_{3}]^{+} 0 
X+2Z = 4  
[KrX_{2}Z]^{+} 0 

X+2Z = 5  [KrXZ_{2}]^{+} 0 

[KrX_{3}Z]^{+} 0 
X+2Z = 6  
[KrX_{2}Z_{2}]^{+} 0 

X+2Z = 7  [KrXZ_{3}]^{+} 0 

[KrX_{3}Z_{2}]^{+} 0 
X+2Z = 8  
[KrX_{2}Z_{3}]^{+} 0 

X+2Z = 9  [KrXZ_{4}]^{+} 0 

[KrX_{3}Z_{3}]^{+} 0 
X+2Z = 10  
[KrX_{2}Z_{4}]^{+} 0 

X+2Z = 11  [KrXZ_{5}]^{+} 0 

[KrX_{3}Z_{4}]^{+} 0 
X+2Z = 12  
[KrX_{2}Z_{5}]^{+} 0 

MLXZ^{q±} grid for krypton (Kr) for Q = 2: [KrX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for krypton (Kr) for Q = 3: [KrX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for krypton (Kr) for Q = 4: [KrX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for xenon (Xe) for Q = 6: [XeX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for xenon (Xe) for Q = 5: [XeX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for xenon (Xe) for Q = 4: [XeX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for xenon (Xe) for Q = 3: [XeX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for xenon (Xe) for Q = 2: [XeX_{x}L_{l}Z_{z}]^{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]^{q±} 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]^{q±} 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 

[XeL_{2}]^{2} 0 

[XeL_{3}]^{2} 0 

[XeL_{4}]^{2} 0 
X+2Z = 1  
[XeZ]^{2} 0 

[XeX]^{2} 0 

[XeLX]^{2} 0 

[XeL_{2}X]^{2} 0 

[XeL_{3}X]^{2} 0 

X+2Z = 2  [XeZ_{2}]^{2} 0 

[XeZ]^{2} 0 

[XeX_{2}]^{2} 0 

[XeLX_{2}]^{2} 0 

[XeL_{2}X_{2}]^{2} 0 

[XeL_{3}X_{2}]^{2} 0 
X+2Z = 3  
[XeZ_{2}]^{2} 0 

[XeXZ]^{2} 0 

[XeX_{3}]^{2} 0 

[XeLX_{3}]^{2} 0 

[XeL_{2}X_{3}]^{2} 0 

X+2Z = 4  [XeZ_{3}]^{2} 0 

[XeZ_{2}]^{2} 0 

[XeX_{2}Z]^{2} 0 

[XeX_{4}]^{2} 0 

[XeLX_{4}]^{2} 0 

[XeL_{2}X_{4}]^{2} 0 
X+2Z = 5  
[XeZ_{3}]^{2} 0 

[XeXZ_{2}]^{2} 0 

[XeX_{3}Z]^{2} 0 

[XeX_{5}]^{2} 0 

[XeLX_{5}]^{2} 0 

X+2Z = 6  [XeZ_{4}]^{2} 0 

[XeZ_{3}]^{2} 0 

[XeX_{2}Z_{2}]^{2} 0 

[XeX_{4}Z]^{2} 0 

[XeX_{6}]^{2} 0 

[XeLX_{6}]^{2} 0 
X+2Z = 7  
[XeZ_{4}]^{2} 0 

[XeXZ_{3}]^{2} 0 

[XeX_{3}Z_{2}]^{2} 0 

[XeX_{5}Z]^{2} 0 

[XeX_{7}]^{2} 0 

X+2Z = 8  [XeZ_{5}]^{2} 0 

[XeZ_{4}]^{2} 0 

[XeX_{2}Z_{3}]^{2} 0 

[XeX_{4}Z_{2}]^{2} 50% 

[XeX_{6}Z]^{2} 0 

[XeX_{8}]^{2} 50% 
X+2Z = 9  
[XeZ_{5}]^{2} 0 

[XeXZ_{4}]^{2} 0 

[XeX_{3}Z_{3}]^{2} 0 

[XeX_{5}Z_{2}]^{2} 0 

[XeX_{7}Z]^{2} 0 

X+2Z = 10  [XeZ_{6}]^{2} 0 

[XeZ_{5}]^{2} 0 

[XeX_{2}Z_{4}]^{2} 0 

[XeX_{4}Z_{3}]^{2} 0 

[XeX_{6}Z_{2}]^{2} 0 

[XeX_{8}Z]^{2} 0 
X+2Z = 11  
[XeZ_{6}]^{2} 0 

[XeXZ_{5}]^{2} 0 

[XeX_{3}Z_{4}]^{2} 0 

[XeX_{5}Z_{3}]^{2} 0 

[XeX_{7}Z_{2}]^{2} 0 

X+2Z = 12  [XeZ_{7}]^{2} 0 

[XeZ_{6}]^{2} 0 

[XeX_{2}Z_{5}]^{2} 0 

[XeX_{4}Z_{4}]^{2} 0 

[XeX_{6}Z_{3}]^{2} 0 

[XeX_{8}Z_{2}]^{2} 0 
MLXZ^{q±} grid for xenon (Xe) for Q = 1: [XeX_{x}L_{l}Z_{z}]^{}
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]^{q±} 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]^{q±} classification.
EN➝  8  9  10  11  12  13  14  15  16  17  18 

X+2Z = 0  
[Xe]^{} 0 

[XeL]^{} 0 

[XeL_{2}]^{} 0 

[XeL_{3}]^{} 0 

[XeL_{4}]^{} 0 

X+2Z = 1  [XeZ]^{} 0 

[XeX]^{} 0 

[XeLX]^{} 0 

[XeL_{2}X]^{} 0 

[XeL_{3}X]^{} 0 

[XeL_{4}X]^{} 0 
X+2Z = 2  
[XeZ]^{} 0 

[XeX_{2}]^{} 0 

[XeLX_{2}]^{} 0 

[XeL_{2}X_{2}]^{} 0 

[XeL_{3}X_{2}]^{} 0 

X+2Z = 3  [XeZ_{2}]^{} 0 

[XeXZ]^{} 0 

[XeX_{3}]^{} 0 

[XeLX_{3}]^{} 0 

[XeL_{2}X_{3}]^{} 0 

[XeL_{3}X_{3}]^{} 0 
X+2Z = 4  
[XeZ_{2}]^{} 0 

[XeX_{2}Z]^{} 0 

[XeX_{4}]^{} 0 

[XeLX_{4}]^{} 0 

[XeL_{2}X_{4}]^{} 0 

X+2Z = 5  [XeZ_{3}]^{} 0 

[XeXZ_{2}]^{} 0 

[XeX_{3}Z]^{} 0 

[XeX_{5}]^{} 50% 

[XeLX_{5}]^{} 0 

[XeL_{2}X_{5}]^{} 0 
X+2Z = 6  
[XeZ_{3}]^{} 0 

[XeX_{2}Z_{2}]^{} 0 

[XeX_{4}Z]^{} 0 

[XeX_{6}]^{} 0 

[XeLX_{6}]^{} 0 

X+2Z = 7  [XeZ_{4}]^{} 0 

[XeXZ_{3}]^{} 0 

[XeX_{3}Z_{2}]^{} 0 

[XeX_{5}Z]^{} 0 

[XeX_{7}]^{} 50% 

[XeLX_{7}]^{} 0 
X+2Z = 8  
[XeZ_{4}]^{} 0 

[XeX_{2}Z_{3}]^{} 0 

[XeX_{4}Z_{2}]^{} 0 

[XeX_{6}Z]^{} 0 

[XeX_{8}]^{} 0 

X+2Z = 9  [XeZ_{5}]^{} 0 

[XeXZ_{4}]^{} 0 

[XeX_{3}Z_{3}]^{} 0 

[XeX_{5}Z_{2}]^{} 0 

[XeX_{7}Z]^{} 0 

[XeX_{9}]^{} 0 
X+2Z = 10  
[XeZ_{5}]^{} 0 

[XeX_{2}Z_{4}]^{} 0 

[XeX_{4}Z_{3}]^{} 0 

[XeX_{6}Z_{2}]^{} 0 

[XeX_{8}Z]^{} 0 

X+2Z = 11  [XeZ_{6}]^{} 0 

[XeXZ_{5}]^{} 0 

[XeX_{3}Z_{4}]^{} 0 

[XeX_{5}Z_{3}]^{} 0 

[XeX_{7}Z_{2}]^{} 0 

[XeX_{9}Z]^{} 0 
X+2Z = 12  
[XeZ_{6}]^{} 0 

[XeX_{2}Z_{5}]^{} 0 

[XeX_{4}Z_{4}]^{} 0 

[XeX_{6}Z_{3}]^{} 0 

[XeX_{8}Z_{2}]^{} 0 

MLXZ^{q±} grid for xenon (Xe) for Q = 0: [XeX_{x}L_{l}Z_{z}]^{}
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]^{q±} 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]^{q±} classification.
EN➝  8  9  10  11  12  13  14  15  16  17  18 

X+2Z = 0  [Xe] 3% 

[XeL] 0 

[XeL_{2}] 0 

[XeL_{3}] 0 

[XeL_{4}] 0 

[XeL_{5}] 0 
X+2Z = 1  
[XeX] 0 

[XeLX] 0 

[XeL_{2}X] 0 

[XeL_{3}X] 0 

[XeL_{4}X] 0 

X+2Z = 2  [XeZ] 10% 

[XeX_{2}] 33% 

[XeLX_{2}] 0 

[XeL_{2}X_{2}] 0 

[XeL_{3}X_{2}] 0 

[XeL_{4}X_{2}] 0 
X+2Z = 3  
[XeXZ] 0 

[XeX_{3}] 0 

[XeLX_{3}] 0 

[XeL_{2}X_{3}] 0 

[XeL_{3}X_{3}] 0 

X+2Z = 4  [XeZ_{2}] 0 

[XeX_{2}Z] 3% 

[XeX_{4}] 13% 

[XeLX_{4}] 0 

[XeL_{2}X_{4}] 0 

[XeL_{3}X_{4}] 0 
X+2Z = 5  
[XeXZ_{2}] 0 

[XeX_{3}Z] 0 

[XeX_{5}] 0 

[XeLX_{5}] 0 

[XeL_{2}X_{5}] 0 

X+2Z = 6  [XeZ_{3}] 3% 

[XeX_{2}Z_{2}] 8% 

[XeX_{4}Z] 10% 

[XeX_{6}] 18% 

[XeLX_{6}] 0 

[XeL_{2}X_{6}] 0 
X+2Z = 7  
[XeXZ_{3}] 0 

[XeX_{3}Z_{2}] 0 

[XeX_{5}Z] 0 

[XeX_{7}] 0 

[XeLX_{7}] 0 

X+2Z = 8  [XeZ_{4}] 0 

[XeX_{2}Z_{3}] 0 

[XeX_{4}Z_{2}] 0 

[XeX_{6}Z] 0 

[XeX_{8}] 0 

[XeLX_{8}] 0 
X+2Z = 9  
[XeXZ_{4}] 0 

[XeX_{3}Z_{3}] 0 

[XeX_{5}Z_{2}] 0 

[XeX_{7}Z] 0 

[XeX_{9}] 0 

X+2Z = 10  [XeZ_{5}] 0 

[XeX_{2}Z_{4}] 0 

[XeX_{4}Z_{3}] 0 

[XeX_{6}Z_{2}] 0 

[XeX_{8}Z] 0 

[XeX_{10}] 0 
X+2Z = 11  
[XeXZ_{5}] 0 

[XeX_{3}Z_{4}] 0 

[XeX_{5}Z_{3}] 0 

[XeX_{7}Z_{2}] 0 

[XeX_{9}Z] 0 

X+2Z = 12  [XeZ_{6}] 0 

[XeX_{2}Z_{5}] 0 

[XeX_{4}Z_{4}] 0 

[XeX_{6}Z_{3}] 0 

[XeX_{8}Z_{2}] 0 

[XeX_{10}Z] 0 
MLXZ^{q±} grid for xenon (Xe) for Q = 1: [XeX_{x}L_{l}Z_{z}]^{+}
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]^{q±} 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]^{q±} classification.
EN➝  8  9  10  11  12  13  14  15  16  17  18 

X+2Z = 0  
[XeL]^{+} 0 

[XeL_{2}]^{+} 0 

[XeL_{3}]^{+} 0 

[XeL_{4}]^{+} 0 

[XeL_{5}]^{+} 0 

X+2Z = 1  [XeX]^{+} 35% 

[XeLX]^{+} 38% 

[XeL_{2}X]^{+} 0 

[XeL_{3}X]^{+} 0 

[XeL_{4}X]^{+} 0 

[XeL_{5}X]^{+} 0 
X+2Z = 2  
[XeX_{2}]^{+} 0 

[XeLX_{2}]^{+} 0 

[XeL_{2}X_{2}]^{+} 0 

[XeL_{3}X_{2}]^{+} 0 

[XeL_{4}X_{2}]^{+} 0 

X+2Z = 3  [XeXZ]^{+} 0 

[XeX_{3}]^{+} 8% 

[XeLX_{3}]^{+} 0 

[XeL_{2}X_{3}]^{+} 0 

[XeL_{3}X_{3}]^{+} 0 

[XeL_{4}X_{3}]^{+} 0 
X+2Z = 4  
[XeX_{2}Z]^{+} 0 

[XeX_{4}]^{+} 0 

[XeLX_{4}]^{+} 0 

[XeL_{2}X_{4}]^{+} 0 

[XeL_{3}X_{4}]^{+} 0 

X+2Z = 5  [XeXZ_{2}]^{+} 4% 

[XeX_{3}Z]^{+} 12% 

[XeX_{5}]^{+} 4% 

[XeLX_{5}]^{+} 0 

[XeL_{2}X_{5}]^{+} 0 

[XeL_{3}X_{5}]^{+} 0 
X+2Z = 6  
[XeX_{2}Z_{2}]^{+} 0 

[XeX_{4}Z]^{+} 0 

[XeX_{6}]^{+} 0 

[XeLX_{6}]^{+} 0 

[XeL_{2}X_{6}]^{+} 0 

X+2Z = 7  [XeXZ_{3}]^{+} 0 

[XeX_{3}Z_{2}]^{+} 0 

[XeX_{5}Z]^{+} 0 

[XeX_{7}]^{+} 0 

[XeLX_{7}]^{+} 0 

[XeL_{2}X_{7}]^{+} 0 
X+2Z = 8  
[XeX_{2}Z_{3}]^{+} 0 

[XeX_{4}Z_{2}]^{+} 0 

[XeX_{6}Z]^{+} 0 

[XeX_{8}]^{+} 0 

[XeLX_{8}]^{+} 0 

X+2Z = 9  [XeXZ_{4}]^{+} 0 

[XeX_{3}Z_{3}]^{+} 0 

[XeX_{5}Z_{2}]^{+} 0 

[XeX_{7}Z]^{+} 0 

[XeX_{9}]^{+} 0 

[XeLX_{9}]^{+} 0 
X+2Z = 10  
[XeX_{2}Z_{4}]^{+} 0 

[XeX_{4}Z_{3}]^{+} 0 

[XeX_{6}Z_{2}]^{+} 0 

[XeX_{8}Z]^{+} 0 

[XeX_{10}]^{+} 0 

X+2Z = 11  [XeXZ_{5}]^{+} 0 

[XeX_{3}Z_{4}]^{+} 0 

[XeX_{5}Z_{3}]^{+} 0 

[XeX_{7}Z_{2}]^{+} 0 

[XeX_{9}Z]^{+} 0 

[XeX_{11}]^{+} 0 
X+2Z = 12  
[XeX_{2}Z_{5}]^{+} 0 

[XeX_{4}Z_{4}]^{+} 0 

[XeX_{6}Z_{3}]^{+} 0 

[XeX_{8}Z_{2}]^{+} 0 

[XeX_{10}Z]^{+} 0 

MLXZ^{q±} grid for xenon (Xe) for Q = 2: [XeX_{x}L_{l}Z_{z}]^{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]^{q±} 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]^{q±} classification.
EN➝  8  9  10  11  12  13  14  15  16  17  18 

X+2Z = 0  [XeL]^{2+} 0 

[XeL_{2}]^{2+} 0 

[XeL_{3}]^{2+} 0 

[XeL_{4}]^{2+} 0 

[XeL_{5}]^{2+} 0 

[XeL_{6}]^{2+} 0 
X+2Z = 1  
[XeLX]^{2+} 0 

[XeL_{2}X]^{2+} 0 

[XeL_{3}X]^{2+} 0 

[XeL_{4}X]^{2+} 0 

[XeL_{5}X]^{2+} 0 

X+2Z = 2  [XeX_{2}]^{2+} 50% 

[XeLX_{2}]^{2+} 0 

[XeL_{2}X_{2}]^{2+} 0 

[XeL_{3}X_{2}]^{2+} 0 

[XeL_{4}X_{2}]^{2+} 0 

[XeL_{5}X_{2}]^{2+} 0 
X+2Z = 3  
[XeX_{3}]^{2+} 0 

[XeLX_{3}]^{2+} 0 

[XeL_{2}X_{3}]^{2+} 0 

[XeL_{3}X_{3}]^{2+} 0 

[XeL_{4}X_{3}]^{2+} 0 

X+2Z = 4  [XeX_{2}Z]^{2+} 0 

[XeX_{4}]^{2+} 0 

[XeLX_{4}]^{2+} 0 

[XeL_{2}X_{4}]^{2+} 0 

[XeL_{3}X_{4}]^{2+} 0 

[XeL_{4}X_{4}]^{2+} 0 
X+2Z = 5  
[XeX_{3}Z]^{2+} 0 

[XeX_{5}]^{2+} 0 

[XeLX_{5}]^{2+} 0 

[XeL_{2}X_{5}]^{2+} 0 

[XeL_{3}X_{5}]^{2+} 0 

X+2Z = 6  [XeX_{2}Z_{2}]^{2+} 0 

[XeX_{4}Z]^{2+} 0 

[XeX_{6}]^{2+} 50% 

[XeLX_{6}]^{2+} 0 

[XeL_{2}X_{6}]^{2+} 0 

[XeL_{3}X_{6}]^{2+} 0 
X+2Z = 7  
[XeX_{3}Z_{2}]^{2+} 0 

[XeX_{5}Z]^{2+} 0 

[XeX_{7}]^{2+} 0 

[XeLX_{7}]^{2+} 0 

[XeL_{2}X_{7}]^{2+} 0 

X+2Z = 8  [XeX_{2}Z_{3}]^{2+} 0 

[XeX_{4}Z_{2}]^{2+} 0 

[XeX_{6}Z]^{2+} 0 

[XeX_{8}]^{2+} 0 

[XeLX_{8}]^{2+} 0 

[XeL_{2}X_{8}]^{2+} 0 
X+2Z = 9  
[XeX_{3}Z_{3}]^{2+} 0 

[XeX_{5}Z_{2}]^{2+} 0 

[XeX_{7}Z]^{2+} 0 

[XeX_{9}]^{2+} 0 

[XeLX_{9}]^{2+} 0 

X+2Z = 10  [XeX_{2}Z_{4}]^{2+} 0 

[XeX_{4}Z_{3}]^{2+} 0 

[XeX_{6}Z_{2}]^{2+} 0 

[XeX_{8}Z]^{2+} 0 

[XeX_{10}]^{2+} 0 

[XeLX_{10}]^{2+} 0 
X+2Z = 11  
[XeX_{3}Z_{4}]^{2+} 0 

[XeX_{5}Z_{3}]^{2+} 0 

[XeX_{7}Z_{2}]^{2+} 0 

[XeX_{9}Z]^{2+} 0 

[XeX_{11}]^{2+} 0 

X+2Z = 12  [XeX_{2}Z_{5}]^{2+} 0 

[XeX_{4}Z_{4}]^{2+} 0 

[XeX_{6}Z_{3}]^{2+} 0 

[XeX_{8}Z_{2}]^{2+} 0 

[XeX_{10}Z]^{2+} 0 

[XeX_{12}]^{2+} 0 
MLXZ^{q±} grid for xenon (Xe) for Q = 3: [XeX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for xenon (Xe) for Q = 4: [XeX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 6: [RnX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 5: [RnX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 4: [RnX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 3: [RnX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 2: [RnX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 1: [RnX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 0: [RnX_{x}L_{l}Z_{z}]^{}
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]^{q±} 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]^{q±} classification.
EN➝  8 

X+2Z = 0  [Rn] 100% 
X+2Z = 1  
X+2Z = 2  [RnZ] 0 
X+2Z = 3  
X+2Z = 4  [RnZ_{2}] 0 
X+2Z = 5  
X+2Z = 6  [RnZ_{3}] 0 
X+2Z = 7  
X+2Z = 8  [RnZ_{4}] 0 
X+2Z = 9  
X+2Z = 10  [RnZ_{5}] 0 
X+2Z = 11  
X+2Z = 12  [RnZ_{6}] 0 
MLXZ^{q±} grid for radon (Rn) for Q = 1: [RnX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 2: [RnX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 3: [RnX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for radon (Rn) for Q = 4: [RnX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 6: [OgX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 5: [OgX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 4: [OgX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 3: [OgX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 2: [OgX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 1: [OgX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 0: [OgX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 1: [OgX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 2: [OgX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 3: [OgX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for oganesson (Og) for Q = 4: [OgX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.