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

X+2Z = 0  [H]^{} 0 
X+2Z = 1  
X+2Z = 2  [HZ]^{} 100% 
X+2Z = 3  
X+2Z = 4  [HZ_{2}]^{} 0 
X+2Z = 5  
X+2Z = 6  [HZ_{3}]^{} 0 
X+2Z = 7  
X+2Z = 8  [HZ_{4}]^{} 0 
X+2Z = 9  
X+2Z = 10  [HZ_{5}]^{} 0 
X+2Z = 11  
X+2Z = 12  [HZ_{6}]^{} 0 
MLXZ^{q±} grid for hydrogen (H) for Q = 0: [HX_{x}L_{l}Z_{z}]^{}
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]^{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 hydrogen with that [MLXZ]^{q±} 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  [HXZ_{2}] 0 
X+2Z = 6  
X+2Z = 7  [HXZ_{3}] 0 
X+2Z = 8  
X+2Z = 9  [HXZ_{4}] 0 
X+2Z = 10  
X+2Z = 11  [HXZ_{5}] 0 
X+2Z = 12  
MLXZ^{q±} grid for hydrogen (H) for Q = 1: [HX_{x}L_{l}Z_{z}]^{+}
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]^{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 hydrogen with that [MLXZ]^{q±} classification.
EN➝  2 

X+2Z = 0  [HL]^{+} 100% 
X+2Z = 1  
X+2Z = 2  [HX_{2}]^{+} 0 
X+2Z = 3  
X+2Z = 4  [HX_{2}Z]^{+} 0 
X+2Z = 5  
X+2Z = 6  [HX_{2}Z_{2}]^{+} 0 
X+2Z = 7  
X+2Z = 8  [HX_{2}Z_{3}]^{+} 0 
X+2Z = 9  
X+2Z = 10  [HX_{2}Z_{4}]^{+} 0 
X+2Z = 11  
X+2Z = 12  [HX_{2}Z_{5}]^{+} 0 
MLXZ^{q±} grid for hydrogen (H) for Q = 2: [HX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for hydrogen (H) for Q = 3: [HX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for hydrogen (H) for Q = 4: [HX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
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 lithium (Li) for Q = 6: [LiX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for lithium (Li) for Q = 5: [LiX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for lithium (Li) for Q = 4: [LiX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for lithium (Li) for Q = 3: [LiX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for lithium (Li) for Q = 2: [LiX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for lithium (Li) for Q = 1: [LiX_{x}L_{l}Z_{z}]^{}
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]^{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 lithium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10  11  12  13  14  15  16 

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

[LiL_{2}]^{} 0 

[LiL_{3}]^{} 0 

[LiL_{4}]^{} 0 

[LiL_{5}]^{} 0 

[LiL_{6}]^{} 0 

[LiL_{7}]^{} 0 
X+2Z = 1  
[LiLX]^{} 0 

[LiL_{2}X]^{} 0 

[LiL_{3}X]^{} 0 

[LiL_{4}X]^{} 0 

[LiL_{5}X]^{} 0 

[LiL_{6}X]^{} 0 

X+2Z = 2  [LiX_{2}]^{} 25% 

[LiLX_{2}]^{} 0 

[LiL_{2}X_{2}]^{} 50% 

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

[LiL_{4}X_{2}]^{} 25% 

[LiL_{5}X_{2}]^{} 0 

[LiL_{6}X_{2}]^{} 0 
X+2Z = 3  
[LiX_{3}]^{} 0 

[LiLX_{3}]^{} 0 

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

[LiL_{3}X_{3}]^{} 0 

[LiL_{4}X_{3}]^{} 0 

[LiL_{5}X_{3}]^{} 0 

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

[LiX_{4}]^{} 0 

[LiLX_{4}]^{} 0 

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

[LiL_{3}X_{4}]^{} 0 

[LiL_{4}X_{4}]^{} 0 

[LiL_{5}X_{4}]^{} 0 
X+2Z = 5  
[LiX_{3}Z]^{} 0 

[LiX_{5}]^{} 0 

[LiLX_{5}]^{} 0 

[LiL_{2}X_{5}]^{} 0 

[LiL_{3}X_{5}]^{} 0 

[LiL_{4}X_{5}]^{} 0 

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

[LiX_{4}Z]^{} 0 

[LiX_{6}]^{} 0 

[LiLX_{6}]^{} 0 

[LiL_{2}X_{6}]^{} 0 

[LiL_{3}X_{6}]^{} 0 

[LiL_{4}X_{6}]^{} 0 
X+2Z = 7  
[LiX_{3}Z_{2}]^{} 0 

[LiX_{5}Z]^{} 0 

[LiX_{7}]^{} 0 

[LiLX_{7}]^{} 0 

[LiL_{2}X_{7}]^{} 0 

[LiL_{3}X_{7}]^{} 0 

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

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

[LiX_{6}Z]^{} 0 

[LiX_{8}]^{} 0 

[LiLX_{8}]^{} 0 

[LiL_{2}X_{8}]^{} 0 

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

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

[LiX_{7}Z]^{} 0 

[LiX_{9}]^{} 0 

[LiLX_{9}]^{} 0 

[LiL_{2}X_{9}]^{} 0 

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

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

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

[LiX_{8}Z]^{} 0 

[LiX_{10}]^{} 0 

[LiLX_{10}]^{} 0 

[LiL_{2}X_{10}]^{} 0 
X+2Z = 11  
[LiX_{3}Z_{4}]^{} 0 

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

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

[LiX_{9}Z]^{} 0 

[LiX_{11}]^{} 0 

[LiLX_{11}]^{} 0 

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

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

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

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

[LiX_{10}Z]^{} 0 

[LiX_{12}]^{} 0 

[LiLX_{12}]^{} 0 
MLXZ^{q±} grid for lithium (Li) for Q = 0: [LiX_{x}L_{l}Z_{z}]^{}
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]^{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 lithium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10  11  12  13  14  15  16 

X+2Z = 0  
[LiL_{2}] 0 

[LiL_{3}] 0 

[LiL_{4}] 0 

[LiL_{5}] 0 

[LiL_{6}] 0 

[LiL_{7}] 0 

X+2Z = 1  [LiLX] 3% 

[LiL_{2}X] 15% 

[LiL_{3}X] 56% 

[LiL_{4}X] 25% 

[LiL_{5}X] 1% 

[LiL_{6}X] 1% 

[LiL_{7}X] 0 
X+2Z = 2  
[LiLX_{2}] 0 

[LiL_{2}X_{2}] 0 

[LiL_{3}X_{2}] 0 

[LiL_{4}X_{2}] 0 

[LiL_{5}X_{2}] 0 

[LiL_{6}X_{2}] 0 

X+2Z = 3  [LiX_{3}] 0 

[LiLX_{3}] 0 

[LiL_{2}X_{3}] 0 

[LiL_{3}X_{3}] 0 

[LiL_{4}X_{3}] 0 

[LiL_{5}X_{3}] 0 

[LiL_{6}X_{3}] 0 
X+2Z = 4  
[LiX_{4}] 0 

[LiLX_{4}] 0 

[LiL_{2}X_{4}] 0 

[LiL_{3}X_{4}] 0 

[LiL_{4}X_{4}] 0 

[LiL_{5}X_{4}] 0 

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

[LiX_{5}] 0 

[LiLX_{5}] 0 

[LiL_{2}X_{5}] 0 

[LiL_{3}X_{5}] 0 

[LiL_{4}X_{5}] 0 

[LiL_{5}X_{5}] 0 
X+2Z = 6  
[LiX_{4}Z] 0 

[LiX_{6}] 0 

[LiLX_{6}] 0 

[LiL_{2}X_{6}] 0 

[LiL_{3}X_{6}] 0 

[LiL_{4}X_{6}] 0 

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

[LiX_{5}Z] 0 

[LiX_{7}] 0 

[LiLX_{7}] 0 

[LiL_{2}X_{7}] 0 

[LiL_{3}X_{7}] 0 

[LiL_{4}X_{7}] 0 
X+2Z = 8  
[LiX_{4}Z_{2}] 0 

[LiX_{6}Z] 0 

[LiX_{8}] 0 

[LiLX_{8}] 0 

[LiL_{2}X_{8}] 0 

[LiL_{3}X_{8}] 0 

X+2Z = 9  [LiX_{3}Z_{3}] 0 

[LiX_{5}Z_{2}] 0 

[LiX_{7}Z] 0 

[LiX_{9}] 0 

[LiLX_{9}] 0 

[LiL_{2}X_{9}] 0 

[LiL_{3}X_{9}] 0 
X+2Z = 10  
[LiX_{4}Z_{3}] 0 

[LiX_{6}Z_{2}] 0 

[LiX_{8}Z] 0 

[LiX_{10}] 0 

[LiLX_{10}] 0 

[LiL_{2}X_{10}] 0 

X+2Z = 11  [LiX_{3}Z_{4}] 0 

[LiX_{5}Z_{3}] 0 

[LiX_{7}Z_{2}] 0 

[LiX_{9}Z] 0 

[LiX_{11}] 0 

[LiLX_{11}] 0 

[LiL_{2}X_{11}] 0 
X+2Z = 12  
[LiX_{4}Z_{4}] 0 

[LiX_{6}Z_{3}] 0 

[LiX_{8}Z_{2}] 0 

[LiX_{10}Z] 0 

[LiX_{12}] 0 

[LiLX_{12}] 0 

MLXZ^{q±} grid for lithium (Li) for Q = 1: [LiX_{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 lithium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10  11  12  13  14  15  16 

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

[LiL_{3}]^{+} 0 

[LiL_{4}]^{+} 69% 

[LiL_{5}]^{+} 13% 

[LiL_{6}]^{+} 15% 

[LiL_{7}]^{+} 0 

[LiL_{8}]^{+} 3% 
X+2Z = 1  
[LiL_{2}X]^{+} 0 

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

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

[LiL_{5}X]^{+} 0 

[LiL_{6}X]^{+} 0 

[LiL_{7}X]^{+} 0 

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

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

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

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

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

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

[LiL_{7}X_{2}]^{+} 0 
X+2Z = 3  
[LiLX_{3}]^{+} 0 

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

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

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

[LiL_{5}X_{3}]^{+} 0 

[LiL_{6}X_{3}]^{+} 0 

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

[LiLX_{4}]^{+} 0 

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

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

[LiL_{4}X_{4}]^{+} 0 

[LiL_{5}X_{4}]^{+} 0 

[LiL_{6}X_{4}]^{+} 0 
X+2Z = 5  
[LiX_{5}]^{+} 0 

[LiLX_{5}]^{+} 0 

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

[LiL_{3}X_{5}]^{+} 0 

[LiL_{4}X_{5}]^{+} 0 

[LiL_{5}X_{5}]^{+} 0 

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

[LiX_{6}]^{+} 0 

[LiLX_{6}]^{+} 0 

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

[LiL_{3}X_{6}]^{+} 0 

[LiL_{4}X_{6}]^{+} 0 

[LiL_{5}X_{6}]^{+} 0 
X+2Z = 7  
[LiX_{5}Z]^{+} 0 

[LiX_{7}]^{+} 0 

[LiLX_{7}]^{+} 0 

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

[LiL_{3}X_{7}]^{+} 0 

[LiL_{4}X_{7}]^{+} 0 

X+2Z = 8  [LiX_{4}Z_{2}]^{+} 0 

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

[LiX_{8}]^{+} 0 

[LiLX_{8}]^{+} 0 

[LiL_{2}X_{8}]^{+} 0 

[LiL_{3}X_{8}]^{+} 0 

[LiL_{4}X_{8}]^{+} 0 
X+2Z = 9  
[LiX_{5}Z_{2}]^{+} 0 

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

[LiX_{9}]^{+} 0 

[LiLX_{9}]^{+} 0 

[LiL_{2}X_{9}]^{+} 0 

[LiL_{3}X_{9}]^{+} 0 

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

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

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

[LiX_{10}]^{+} 0 

[LiLX_{10}]^{+} 0 

[LiL_{2}X_{10}]^{+} 0 

[LiL_{3}X_{10}]^{+} 0 
X+2Z = 11  
[LiX_{5}Z_{3}]^{+} 0 

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

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

[LiX_{11}]^{+} 0 

[LiLX_{11}]^{+} 0 

[LiL_{2}X_{11}]^{+} 0 

X+2Z = 12  [LiX_{4}Z_{4}]^{+} 0 

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

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

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

[LiX_{12}]^{+} 0 

[LiLX_{12}]^{+} 0 

[LiL_{2}X_{12}]^{+} 0 
MLXZ^{q±} grid for lithium (Li) for Q = 2: [LiX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for lithium (Li) for Q = 3: [LiX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for lithium (Li) for Q = 4: [LiX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for beryllium (Be) for Q = 6: [BeX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for beryllium (Be) for Q = 5: [BeX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for beryllium (Be) for Q = 4: [BeX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for beryllium (Be) for Q = 3: [BeX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for beryllium (Be) for Q = 2: [BeX_{x}L_{l}Z_{z}]^{2}
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]^{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 beryllium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10 

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

[BeL]^{2} 0 

[BeL_{2}]^{2} 0 

[BeL_{3}]^{2} 0 
X+2Z = 1  
[BeX]^{2} 0 

[BeLX]^{2} 0 

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

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

[BeX_{2}]^{2} 0 

[BeLX_{2}]^{2} 0 

[BeL_{2}X_{2}]^{2} 0 
X+2Z = 3  
[BeXZ]^{2} 0 

[BeX_{3}]^{2} 0 

[BeLX_{3}]^{2} 0 

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

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

[BeX_{4}]^{2} 100% 

[BeLX_{4}]^{2} 0 
X+2Z = 5  
[BeXZ_{2}]^{2} 0 

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

[BeX_{5}]^{2} 0 

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

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

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

[BeX_{6}]^{2} 0 
X+2Z = 7  
[BeXZ_{3}]^{2} 0 

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

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

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

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

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

[BeX_{6}Z]^{2} 0 
X+2Z = 9  
[BeXZ_{4}]^{2} 0 

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

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

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

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

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

[BeX_{6}Z_{2}]^{2} 0 
X+2Z = 11  
[BeXZ_{5}]^{2} 0 

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

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

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

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

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

[BeX_{6}Z_{3}]^{2} 0 
MLXZ^{q±} grid for beryllium (Be) for Q = 1: [BeX_{x}L_{l}Z_{z}]^{}
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]^{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 beryllium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10 

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

[BeL_{2}]^{} 0 

[BeL_{3}]^{} 0 

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

[BeLX]^{} 0 

[BeL_{2}X]^{} 0 

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

[BeLX_{2}]^{} 0 

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

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

[BeX_{3}]^{} 25% 

[BeLX_{3}]^{} 75% 

[BeL_{2}X_{3}]^{} 0 
X+2Z = 4  
[BeX_{2}Z]^{} 0 

[BeX_{4}]^{} 0 

[BeLX_{4}]^{} 0 

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

[BeX_{3}Z]^{} 0 

[BeX_{5}]^{} 0 

[BeLX_{5}]^{} 0 
X+2Z = 6  
[BeX_{2}Z_{2}]^{} 0 

[BeX_{4}Z]^{} 0 

[BeX_{6}]^{} 0 

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

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

[BeX_{5}Z]^{} 0 

[BeX_{7}]^{} 0 
X+2Z = 8  
[BeX_{2}Z_{3}]^{} 0 

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

[BeX_{6}Z]^{} 0 

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

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

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

[BeX_{7}Z]^{} 0 
X+2Z = 10  
[BeX_{2}Z_{4}]^{} 0 

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

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

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

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

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

[BeX_{7}Z_{2}]^{} 0 
X+2Z = 12  
[BeX_{2}Z_{5}]^{} 0 

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

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

MLXZ^{q±} grid for beryllium (Be) for Q = 0: [BeX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 83.
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 beryllium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10 

X+2Z = 0  [BeL] 0 

[BeL_{2}] 0 

[BeL_{3}] 0 

[BeL_{4}] 0 
X+2Z = 1  
[BeLX] 0 

[BeL_{2}X] 0 

[BeL_{3}X] 0 

X+2Z = 2  [BeX_{2}] 1% 

[BeLX_{2}] 7% 

[BeL_{2}X_{2}] 89% 

[BeL_{3}X_{2}] 2% 
X+2Z = 3  
[BeX_{3}] 0 

[BeLX_{3}] 0 

[BeL_{2}X_{3}] 0 

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

[BeX_{4}] 0 

[BeLX_{4}] 0 

[BeL_{2}X_{4}] 0 
X+2Z = 5  
[BeX_{3}Z] 0 

[BeX_{5}] 0 

[BeLX_{5}] 0 

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

[BeX_{4}Z] 0 

[BeX_{6}] 0 

[BeLX_{6}] 0 
X+2Z = 7  
[BeX_{3}Z_{2}] 0 

[BeX_{5}Z] 0 

[BeX_{7}] 0 

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

[BeX_{4}Z_{2}] 0 

[BeX_{6}Z] 0 

[BeX_{8}] 0 
X+2Z = 9  
[BeX_{3}Z_{3}] 0 

[BeX_{5}Z_{2}] 0 

[BeX_{7}Z] 0 

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

[BeX_{4}Z_{3}] 0 

[BeX_{6}Z_{2}] 0 

[BeX_{8}Z] 0 
X+2Z = 11  
[BeX_{3}Z_{4}] 0 

[BeX_{5}Z_{3}] 0 

[BeX_{7}Z_{2}] 0 

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

[BeX_{4}Z_{4}] 0 

[BeX_{6}Z_{3}] 0 

[BeX_{8}Z_{2}] 0 
MLXZ^{q±} grid for beryllium (Be) for Q = 1: [BeX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 8.
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 beryllium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10 

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

[BeL_{3}]^{+} 0 

[BeL_{4}]^{+} 0 

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

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

[BeL_{3}X]^{+} 88% 

[BeL_{4}X]^{+} 13% 
X+2Z = 2  
[BeLX_{2}]^{+} 0 

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

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

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

[BeLX_{3}]^{+} 0 

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

[BeL_{3}X_{3}]^{+} 0 
X+2Z = 4  
[BeX_{4}]^{+} 0 

[BeLX_{4}]^{+} 0 

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

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

[BeX_{5}]^{+} 0 

[BeLX_{5}]^{+} 0 

[BeL_{2}X_{5}]^{+} 0 
X+2Z = 6  
[BeX_{4}Z]^{+} 0 

[BeX_{6}]^{+} 0 

[BeLX_{6}]^{+} 0 

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

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

[BeX_{7}]^{+} 0 

[BeLX_{7}]^{+} 0 
X+2Z = 8  
[BeX_{4}Z_{2}]^{+} 0 

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

[BeX_{8}]^{+} 0 

X+2Z = 9  [BeX_{3}Z_{3}]^{+} 0 

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

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

[BeX_{9}]^{+} 0 
X+2Z = 10  
[BeX_{4}Z_{3}]^{+} 0 

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

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

X+2Z = 11  [BeX_{3}Z_{4}]^{+} 0 

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

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

[BeX_{9}Z]^{+} 0 
X+2Z = 12  
[BeX_{4}Z_{4}]^{+} 0 

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

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

MLXZ^{q±} grid for beryllium (Be) for Q = 2: [BeX_{x}L_{l}Z_{z}]^{2+}
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]^{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 beryllium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10 

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

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

[BeL_{4}]^{2+} 100% 

[BeL_{5}]^{2+} 0 
X+2Z = 1  
[BeL_{2}X]^{2+} 0 

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

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

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

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

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

[BeL_{4}X_{2}]^{2+} 0 
X+2Z = 3  
[BeLX_{3}]^{2+} 0 

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

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

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

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

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

[BeL_{3}X_{4}]^{2+} 0 
X+2Z = 5  
[BeX_{5}]^{2+} 0 

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

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

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

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

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

[BeL_{2}X_{6}]^{2+} 0 
X+2Z = 7  
[BeX_{5}Z]^{2+} 0 

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

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

X+2Z = 8  [BeX_{4}Z_{2}]^{2+} 0 

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

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

[BeLX_{8}]^{2+} 0 
X+2Z = 9  
[BeX_{5}Z_{2}]^{2+} 0 

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

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

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

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

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

[BeX_{10}]^{2+} 0 
X+2Z = 11  
[BeX_{5}Z_{3}]^{2+} 0 

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

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

X+2Z = 12  [BeX_{4}Z_{4}]^{2+} 0 

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

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

[BeX_{10}Z]^{2+} 0 
MLXZ^{q±} grid for beryllium (Be) for Q = 3: [BeX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for beryllium (Be) for Q = 4: [BeX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for boron (B) for Q = 6: [BX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for boron (B) for Q = 5: [BX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for boron (B) for Q = 4: [BX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for boron (B) for Q = 3: [BX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for boron (B) for Q = 2: [BX_{x}L_{l}Z_{z}]^{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]^{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 boron with that [MLXZ]^{q±} classification.
EN➝  6  7  8 

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

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

[BLX]^{2} 0 
X+2Z = 2  
[BX_{2}]^{2} 0 

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

[BX_{3}]^{2} 100% 
X+2Z = 4  
[BX_{2}Z]^{2} 0 

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

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

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

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

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

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

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

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

MLXZ^{q±} grid for boron (B) for Q = 1: [BX_{x}L_{l}Z_{z}]^{}
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]^{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 boron with that [MLXZ]^{q±} classification.
EN➝  6  7  8 

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

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

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

[BLX_{2}]^{} 0 
X+2Z = 3  
[BX_{3}]^{} 2% 

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

[BX_{4}]^{} 98% 
X+2Z = 5  
[BX_{3}Z]^{} 0 

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

[BX_{4}Z]^{} 0 
X+2Z = 7  
[BX_{3}Z_{2}]^{} 0 

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

[BX_{4}Z_{2}]^{} 0 
X+2Z = 9  
[BX_{3}Z_{3}]^{} 0 

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

[BX_{4}Z_{3}]^{} 0 
X+2Z = 11  
[BX_{3}Z_{4}]^{} 0 

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

[BX_{4}Z_{4}]^{} 0 
MLXZ^{q±} grid for boron (B) for Q = 0: [BX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 296.
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 boron with that [MLXZ]^{q±} classification.
EN➝  6  7  8 

X+2Z = 0  
[BL_{2}] 0 

X+2Z = 1  [BLX] 0 

[BL_{2}X] 0 
X+2Z = 2  
[BLX_{2}] 0 

X+2Z = 3  [BX_{3}] 40% 

[BLX_{3}] 60% 
X+2Z = 4  
[BX_{4}] 0 

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

[BX_{5}] 0 
X+2Z = 6  
[BX_{4}Z] 0 

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

[BX_{5}Z] 0 
X+2Z = 8  
[BX_{4}Z_{2}] 0 

X+2Z = 9  [BX_{3}Z_{3}] 0 

[BX_{5}Z_{2}] 0 
X+2Z = 10  
[BX_{4}Z_{3}] 0 

X+2Z = 11  [BX_{3}Z_{4}] 0 

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

MLXZ^{q±} grid for boron (B) for Q = 1: [BX_{x}L_{l}Z_{z}]^{+}
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]^{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 boron with that [MLXZ]^{q±} classification.
EN➝  6  7  8 

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

[BL_{3}]^{+} 0 
X+2Z = 1  
[BL_{2}X]^{+} 0 

X+2Z = 2  [BLX_{2}]^{+} 40% 

[BL_{2}X_{2}]^{+} 60% 
X+2Z = 3  
[BLX_{3}]^{+} 0 

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

[BLX_{4}]^{+} 0 
X+2Z = 5  
[BX_{5}]^{+} 0 

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

[BX_{6}]^{+} 0 
X+2Z = 7  
[BX_{5}Z]^{+} 0 

X+2Z = 8  [BX_{4}Z_{2}]^{+} 0 

[BX_{6}Z]^{+} 0 
X+2Z = 9  
[BX_{5}Z_{2}]^{+} 0 

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

[BX_{6}Z_{2}]^{+} 0 
X+2Z = 11  
[BX_{5}Z_{3}]^{+} 0 

X+2Z = 12  [BX_{4}Z_{4}]^{+} 0 

[BX_{6}Z_{3}]^{+} 0 
MLXZ^{q±} grid for boron (B) for Q = 2: [BX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for boron (B) for Q = 3: [BX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for boron (B) for Q = 4: [BX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for carbon (C) for Q = 6: [CX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for carbon (C) for Q = 5: [CX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for carbon (C) for Q = 4: [CX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for carbon (C) for Q = 3: [CX_{x}L_{l}Z_{z}]^{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]^{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 carbon with that [MLXZ]^{q±} classification.
EN➝  6  7  8 

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

X+2Z = 1  [CZ]^{3} 0 

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

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

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

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

[CXZ_{2}]^{3} 0 
X+2Z = 6  
[CZ_{3}]^{3} 0 

X+2Z = 7  [CZ_{4}]^{3} 0 

[CXZ_{3}]^{3} 100% 
X+2Z = 8  
[CZ_{4}]^{3} 0 

X+2Z = 9  [CZ_{5}]^{3} 0 

[CXZ_{4}]^{3} 0 
X+2Z = 10  
[CZ_{5}]^{3} 0 

X+2Z = 11  [CZ_{6}]^{3} 0 

[CXZ_{5}]^{3} 0 
X+2Z = 12  
[CZ_{6}]^{3} 0 

MLXZ^{q±} grid for carbon (C) for Q = 2: [CX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for carbon (C) for Q = 1: [CX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 6.
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 carbon with that [MLXZ]^{q±} classification.
EN➝  6  7  8 

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

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

[CLX]^{} 0 
X+2Z = 2  
[CX_{2}]^{} 0 

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

[CX_{3}]^{} 100% 
X+2Z = 4  
[CX_{2}Z]^{} 0 

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

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

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

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

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

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

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

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

MLXZ^{q±} grid for carbon (C) for Q = 0: [CX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 12356.
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 carbon with that [MLXZ]^{q±} classification.
EN➝  6  7  8 

X+2Z = 0  [CL] 0 

[CL_{2}] 0.02% 
X+2Z = 1  
[CLX] 0 

X+2Z = 2  [CX_{2}] 0.01% 

[CLX_{2}] 0.1% 
X+2Z = 3  
[CX_{3}] 0.01% 

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

[CX_{4}] 100% 
X+2Z = 5  
[CX_{3}Z] 0 

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

[CX_{4}Z] 0 
X+2Z = 7  
[CX_{3}Z_{2}] 0 

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

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

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

[CX_{4}Z_{3}] 0 
X+2Z = 11  
[CX_{3}Z_{4}] 0 

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

[CX_{4}Z_{4}] 0 
MLXZ^{q±} grid for carbon (C) for Q = 1: [CX_{x}L_{l}Z_{z}]^{+}
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]^{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 carbon with that [MLXZ]^{q±} classification.
EN➝  6  7  8 

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

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

[CL_{2}X]^{+} 8% 
X+2Z = 2  
[CLX_{2}]^{+} 0 

X+2Z = 3  [CX_{3}]^{+} 4% 

[CLX_{3}]^{+} 88% 
X+2Z = 4  
[CX_{4}]^{+} 0 

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

[CX_{5}]^{+} 0 
X+2Z = 6  
[CX_{4}Z]^{+} 0 

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

[CX_{5}Z]^{+} 0 
X+2Z = 8  
[CX_{4}Z_{2}]^{+} 0 

X+2Z = 9  [CX_{3}Z_{3}]^{+} 0 

[CX_{5}Z_{2}]^{+} 0 
X+2Z = 10  
[CX_{4}Z_{3}]^{+} 0 

X+2Z = 11  [CX_{3}Z_{4}]^{+} 0 

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

MLXZ^{q±} grid for carbon (C) for Q = 2: [CX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for carbon (C) for Q = 3: [CX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for carbon (C) for Q = 4: [CX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for nitrogen (N) for Q = 6: [NX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for nitrogen (N) for Q = 5: [NX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for nitrogen (N) for Q = 4: [NX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for nitrogen (N) for Q = 3: [NX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for nitrogen (N) for Q = 2: [NX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for nitrogen (N) for Q = 1: [NX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 320.
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 nitrogen with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  [NL]^{} 0 
X+2Z = 1  
X+2Z = 2  [NX_{2}]^{} 0.3% 
X+2Z = 3  
X+2Z = 4  [NX_{2}Z]^{} 99% 
X+2Z = 5  
X+2Z = 6  [NX_{2}Z_{2}]^{} 0.3% 
X+2Z = 7  
X+2Z = 8  [NX_{2}Z_{3}]^{} 0 
X+2Z = 9  
X+2Z = 10  [NX_{2}Z_{4}]^{} 0 
X+2Z = 11  
X+2Z = 12  [NX_{2}Z_{5}]^{} 0 
MLXZ^{q±} grid for nitrogen (N) for Q = 0: [NX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 5830.
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 nitrogen with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  
X+2Z = 1  [NLX] 0 
X+2Z = 2  
X+2Z = 3  [NX_{3}] 17% 
X+2Z = 4  
X+2Z = 5  [NX_{3}Z] 83% 
X+2Z = 6  
X+2Z = 7  [NX_{3}Z_{2}] 0 
X+2Z = 8  
X+2Z = 9  [NX_{3}Z_{3}] 0 
X+2Z = 10  
X+2Z = 11  [NX_{3}Z_{4}] 0 
X+2Z = 12  
MLXZ^{q±} grid for nitrogen (N) for Q = 1: [NX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 667.
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 nitrogen with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  [NL_{2}]^{+} 0 
X+2Z = 1  
X+2Z = 2  [NLX_{2}]^{+} 1% 
X+2Z = 3  
X+2Z = 4  [NX_{4}]^{+} 99% 
X+2Z = 5  
X+2Z = 6  [NX_{4}Z]^{+} 0 
X+2Z = 7  
X+2Z = 8  [NX_{4}Z_{2}]^{+} 0 
X+2Z = 9  
X+2Z = 10  [NX_{4}Z_{3}]^{+} 0 
X+2Z = 11  
X+2Z = 12  [NX_{4}Z_{4}]^{+} 0 
MLXZ^{q±} grid for nitrogen (N) for Q = 2: [NX_{x}L_{l}Z_{z}]^{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]^{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 nitrogen with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  
X+2Z = 1  [NL_{2}X]^{2+} 0 
X+2Z = 2  
X+2Z = 3  [NLX_{3}]^{2+} 100% 
X+2Z = 4  
X+2Z = 5  [NX_{5}]^{2+} 0 
X+2Z = 6  
X+2Z = 7  [NX_{5}Z]^{2+} 0 
X+2Z = 8  
X+2Z = 9  [NX_{5}Z_{2}]^{2+} 0 
X+2Z = 10  
X+2Z = 11  [NX_{5}Z_{3}]^{2+} 0 
X+2Z = 12  
MLXZ^{q±} grid for nitrogen (N) for Q = 3: [NX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for nitrogen (N) for Q = 4: [NX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for oxygen (O) for Q = 6: [OX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for oxygen (O) for Q = 5: [OX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for oxygen (O) for Q = 4: [OX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for oxygen (O) for Q = 3: [OX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for oxygen (O) for Q = 2: [OX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 7.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]^{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 oxygen with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  [O]^{2} 0 
X+2Z = 1  
X+2Z = 2  [OZ]^{2} 43% 
X+2Z = 3  
X+2Z = 4  [OZ_{2}]^{2} 57% 
X+2Z = 5  
X+2Z = 6  [OZ_{3}]^{2} 0 
X+2Z = 7  
X+2Z = 8  [OZ_{4}]^{2} 0 
X+2Z = 9  
X+2Z = 10  [OZ_{5}]^{2} 0 
X+2Z = 11  
X+2Z = 12  [OZ_{6}]^{2} 0 
MLXZ^{q±} grid for oxygen (O) for Q = 1: [OX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 8.
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 oxygen with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  
X+2Z = 1  [OX]^{} 0 
X+2Z = 2  
X+2Z = 3  [OXZ]^{} 100% 
X+2Z = 4  
X+2Z = 5  [OXZ_{2}]^{} 0 
X+2Z = 6  
X+2Z = 7  [OXZ_{3}]^{} 0 
X+2Z = 8  
X+2Z = 9  [OXZ_{4}]^{} 0 
X+2Z = 10  
X+2Z = 11  [OXZ_{5}]^{} 0 
X+2Z = 12  
MLXZ^{q±} grid for oxygen (O) for Q = 0: [OX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 9086.
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 oxygen with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  [OL] 0 
X+2Z = 1  
X+2Z = 2  [OX_{2}] 38% 
X+2Z = 3  
X+2Z = 4  [OX_{2}Z] 58% 
X+2Z = 5  
X+2Z = 6  [OX_{2}Z_{2}] 3% 
X+2Z = 7  
X+2Z = 8  [OX_{2}Z_{3}] 0 
X+2Z = 9  
X+2Z = 10  [OX_{2}Z_{4}] 0 
X+2Z = 11  
X+2Z = 12  [OX_{2}Z_{5}] 0 
MLXZ^{q±} grid for oxygen (O) for Q = 1: [OX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 11.
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 oxygen with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  
X+2Z = 1  [OLX]^{+} 36% 
X+2Z = 2  
X+2Z = 3  [OX_{3}]^{+} 64% 
X+2Z = 4  
X+2Z = 5  [OX_{3}Z]^{+} 0 
X+2Z = 6  
X+2Z = 7  [OX_{3}Z_{2}]^{+} 0 
X+2Z = 8  
X+2Z = 9  [OX_{3}Z_{3}]^{+} 0 
X+2Z = 10  
X+2Z = 11  [OX_{3}Z_{4}]^{+} 0 
X+2Z = 12  
MLXZ^{q±} grid for oxygen (O) for Q = 2: [OX_{x}L_{l}Z_{z}]^{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]^{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 oxygen with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  [OL_{2}]^{2+} 100% 
X+2Z = 1  
X+2Z = 2  [OLX_{2}]^{2+} 0 
X+2Z = 3  
X+2Z = 4  [OX_{4}]^{2+} 0 
X+2Z = 5  
X+2Z = 6  [OX_{4}Z]^{2+} 0 
X+2Z = 7  
X+2Z = 8  [OX_{4}Z_{2}]^{2+} 0 
X+2Z = 9  
X+2Z = 10  [OX_{4}Z_{3}]^{2+} 0 
X+2Z = 11  
X+2Z = 12  [OX_{4}Z_{4}]^{2+} 0 
MLXZ^{q±} grid for oxygen (O) for Q = 3: [OX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for oxygen (O) for Q = 4: [OX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for fluorine (F) for Q = 6: [FX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for fluorine (F) for Q = 5: [FX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for fluorine (F) for Q = 4: [FX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for fluorine (F) for Q = 3: [FX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for fluorine (F) for Q = 2: [FX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for fluorine (F) for Q = 1: [FX_{x}L_{l}Z_{z}]^{}
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]^{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 fluorine with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  [F]^{} 0 
X+2Z = 1  
X+2Z = 2  [FZ]^{} 46% 
X+2Z = 3  
X+2Z = 4  [FZ_{2}]^{} 54% 
X+2Z = 5  
X+2Z = 6  [FZ_{3}]^{} 0 
X+2Z = 7  
X+2Z = 8  [FZ_{4}]^{} 0 
X+2Z = 9  
X+2Z = 10  [FZ_{5}]^{} 0 
X+2Z = 11  
X+2Z = 12  [FZ_{6}]^{} 0 
MLXZ^{q±} grid for fluorine (F) for Q = 0: [FX_{x}L_{l}Z_{z}]^{}
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]^{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 fluorine with that [MLXZ]^{q±} 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  [FXZ_{2}] 0.5% 
X+2Z = 6  
X+2Z = 7  [FXZ_{3}] 0 
X+2Z = 8  
X+2Z = 9  [FXZ_{4}] 0 
X+2Z = 10  
X+2Z = 11  [FXZ_{5}] 0 
X+2Z = 12  
MLXZ^{q±} grid for fluorine (F) for Q = 1: [FX_{x}L_{l}Z_{z}]^{+}
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]^{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 fluorine with that [MLXZ]^{q±} classification.
EN➝  8 

X+2Z = 0  [FL]^{+} 100% 
X+2Z = 1  
X+2Z = 2  [FX_{2}]^{+} 0 
X+2Z = 3  
X+2Z = 4  [FX_{2}Z]^{+} 0 
X+2Z = 5  
X+2Z = 6  [FX_{2}Z_{2}]^{+} 0 
X+2Z = 7  
X+2Z = 8  [FX_{2}Z_{3}]^{+} 0 
X+2Z = 9  
X+2Z = 10  [FX_{2}Z_{4}]^{+} 0 
X+2Z = 11  
X+2Z = 12  [FX_{2}Z_{5}]^{+} 0 
MLXZ^{q±} grid for fluorine (F) for Q = 2: [FX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for fluorine (F) for Q = 3: [FX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for fluorine (F) for Q = 4: [FX_{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 sodium (Na) for Q = 6: [NaX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for sodium (Na) for Q = 5: [NaX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for sodium (Na) for Q = 4: [NaX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for sodium (Na) for Q = 3: [NaX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for sodium (Na) for Q = 2: [NaX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for sodium (Na) for Q = 1: [NaX_{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 sodium with that [MLXZ]^{q±} classification.
EN➝  2  3  4  5  6  7  8  9  10  11  12  13  14  15  16 

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

[NaL]^{} 0 

[NaL_{2}]^{} 0 

[NaL_{3}]^{} 0 

[NaL_{4}]^{} 0 

[NaL_{5}]^{} 0 

[NaL_{6}]^{} 0 

[NaL_{7}]^{} 0 
X+2Z = 1  
[NaX]^{} 0 

[NaLX]^{} 0 

[NaL_{2}X]^{} 0 

[NaL_{3}X]^{} 0 

[NaL_{4}X]^{} 0 

[NaL_{5}X]^{} 0 

[NaL_{6}X]^{} 0 

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

[NaX_{2}]^{} 0 

[NaLX_{2}]^{} 0 

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

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

[NaL_{4}X_{2}]^{} 100% 

[NaL_{5}X_{2}]^{} 0 

[NaL_{6}X_{2}]^{} 0 
X+2Z = 3  
[NaXZ]^{} 0 

[NaX_{3}]^{} 0 

[NaLX_{3}]^{} 0 

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

[NaL_{3}X_{3}]^{} 0 

[NaL_{4}X_{3}]^{} 0 

[NaL_{5}X_{3}]^{} 0 

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

[NaX_{2}Z]^{} 0 

[NaX_{4}]^{} 0 

[NaLX_{4}]^{} 0 

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

[NaL_{3}X_{4}]^{} 0 

[NaL_{4}X_{4}]^{} 0 

[NaL_{5}X_{4}]^{} 0 
X+2Z = 5  
[NaXZ_{2}]^{} 0 

[NaX_{3}Z]^{} 0 

[NaX_{5}]^{} 0 

[NaLX_{5}]^{} 0 

[NaL_{2}X_{5}]^{} 0 

[NaL_{3}X_{5}]^{} 0 

[NaL_{4}X_{5}]^{} 0 

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

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

[NaX_{4}Z]^{} 0 

[NaX_{6}]^{} 0 

[NaLX_{6}]^{} 0 

[NaL_{2}X_{6}]^{} 0 

[NaL_{3}X_{6}]^{} 0 

[NaL_{4}X_{6}]^{} 0 
X+2Z = 7  
[NaXZ_{3}]^{} 0 

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

[NaX_{5}Z]^{} 0 

[NaX_{7}]^{} 0 

[NaLX_{7}]^{} 0 

[NaL_{2}X_{7}]^{} 0 

[NaL_{3}X_{7}]^{} 0 

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

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

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

[NaX_{6}Z]^{} 0 

[NaX_{8}]^{} 0 

[NaLX_{8}]^{} 0 

[NaL_{2}X_{8}]^{} 0 

[NaL_{3}X_{8}]^{} 0 
X+2Z = 9  
[NaXZ_{4}]^{} 0 

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

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

[NaX_{7}Z]^{} 0 

[NaX_{9}]^{} 0 

[NaLX_{9}]^{} 0 

[NaL_{2}X_{9}]^{} 0 

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

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

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

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

[NaX_{8}Z]^{} 0 

[NaX_{10}]^{} 0 

[NaLX_{10}]^{} 0 

[NaL_{2}X_{10}]^{} 0 
X+2Z = 11  
[NaXZ_{5}]^{} 0 

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

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

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

[NaX_{9}Z]^{} 0 

[NaX_{11}]^{} 0 

[NaLX_{11}]^{} 0 

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

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

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

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

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

[NaX_{10}Z]^{} 0 

[NaX_{12}]^{} 0 

[NaLX_{12}]^{} 0 
MLXZ^{q±} grid for sodium (Na) for Q = 0: [NaX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 61.
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 sodium with that [MLXZ]^{q±} classification.
EN➝  2  3  4  5  6  7  8  9  10  11  12  13  14  15  16 

X+2Z = 0  
[NaL] 0 

[NaL_{2}] 0 

[NaL_{3}] 0 

[NaL_{4}] 0 

[NaL_{5}] 0 

[NaL_{6}] 0 

[NaL_{7}] 0 

X+2Z = 1  [NaX] 3% 

[NaLX] 2% 

[NaL_{2}X] 10% 

[NaL_{3}X] 8% 

[NaL_{4}X] 18% 

[NaL_{5}X] 33% 

[NaL_{6}X] 18% 

[NaL_{7}X] 8% 
X+2Z = 2  
[NaX_{2}] 0 

[NaLX_{2}] 0 

[NaL_{2}X_{2}] 0 

[NaL_{3}X_{2}] 0 

[NaL_{4}X_{2}] 0 

[NaL_{5}X_{2}] 0 

[NaL_{6}X_{2}] 0 

X+2Z = 3  [NaXZ] 0 

[NaX_{3}] 0 

[NaLX_{3}] 0 

[NaL_{2}X_{3}] 0 

[NaL_{3}X_{3}] 0 

[NaL_{4}X_{3}] 0 

[NaL_{5}X_{3}] 0 

[NaL_{6}X_{3}] 0 
X+2Z = 4  
[NaX_{2}Z] 0 

[NaX_{4}] 0 

[NaLX_{4}] 0 

[NaL_{2}X_{4}] 0 

[NaL_{3}X_{4}] 0 

[NaL_{4}X_{4}] 0 

[NaL_{5}X_{4}] 0 

X+2Z = 5  [NaXZ_{2}] 0 

[NaX_{3}Z] 0 

[NaX_{5}] 0 

[NaLX_{5}] 0 

[NaL_{2}X_{5}] 0 

[NaL_{3}X_{5}] 0 

[NaL_{4}X_{5}] 0 

[NaL_{5}X_{5}] 0 
X+2Z = 6  
[NaX_{2}Z_{2}] 0 

[NaX_{4}Z] 0 

[NaX_{6}] 0 

[NaLX_{6}] 0 

[NaL_{2}X_{6}] 0 

[NaL_{3}X_{6}] 0 

[NaL_{4}X_{6}] 0 

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

[NaX_{3}Z_{2}] 0 

[NaX_{5}Z] 0 

[NaX_{7}] 0 

[NaLX_{7}] 0 

[NaL_{2}X_{7}] 0 

[NaL_{3}X_{7}] 0 

[NaL_{4}X_{7}] 0 
X+2Z = 8  
[NaX_{2}Z_{3}] 0 

[NaX_{4}Z_{2}] 0 

[NaX_{6}Z] 0 

[NaX_{8}] 0 

[NaLX_{8}] 0 

[NaL_{2}X_{8}] 0 

[NaL_{3}X_{8}] 0 

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

[NaX_{3}Z_{3}] 0 

[NaX_{5}Z_{2}] 0 

[NaX_{7}Z] 0 

[NaX_{9}] 0 

[NaLX_{9}] 0 

[NaL_{2}X_{9}] 0 

[NaL_{3}X_{9}] 0 
X+2Z = 10  
[NaX_{2}Z_{4}] 0 

[NaX_{4}Z_{3}] 0 

[NaX_{6}Z_{2}] 0 

[NaX_{8}Z] 0 

[NaX_{10}] 0 

[NaLX_{10}] 0 

[NaL_{2}X_{10}] 0 

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

[NaX_{3}Z_{4}] 0 

[NaX_{5}Z_{3}] 0 

[NaX_{7}Z_{2}] 0 

[NaX_{9}Z] 0 

[NaX_{11}] 0 

[NaLX_{11}] 0 

[NaL_{2}X_{11}] 0 
X+2Z = 12  
[NaX_{2}Z_{5}] 0 

[NaX_{4}Z_{4}] 0 

[NaX_{6}Z_{3}] 0 

[NaX_{8}Z_{2}] 0 

[NaX_{10}Z] 0 

[NaX_{12}] 0 

[NaLX_{12}] 0 

MLXZ^{q±} grid for sodium (Na) for Q = 1: [NaX_{x}L_{l}Z_{z}]^{+}
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]^{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 sodium with that [MLXZ]^{q±} classification.
EN➝  2  3  4  5  6  7  8  9  10  11  12  13  14  15  16 

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

[NaL_{2}]^{+} 0 

[NaL_{3}]^{+} 0 

[NaL_{4}]^{+} 11% 

[NaL_{5}]^{+} 11% 

[NaL_{6}]^{+} 42% 

[NaL_{7}]^{+} 9% 

[NaL_{8}]^{+} 27% 
X+2Z = 1  
[NaLX]^{+} 0 

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

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

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

[NaL_{5}X]^{+} 0 

[NaL_{6}X]^{+} 0 

[NaL_{7}X]^{+} 0 

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

[NaLX_{2}]^{+} 0 

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

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

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

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

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

[NaL_{7}X_{2}]^{+} 0 
X+2Z = 3  
[NaX_{3}]^{+} 0 

[NaLX_{3}]^{+} 0 

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

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

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

[NaL_{5}X_{3}]^{+} 0 

[NaL_{6}X_{3}]^{+} 0 

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

[NaX_{4}]^{+} 0 

[NaLX_{4}]^{+} 0 

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

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

[NaL_{4}X_{4}]^{+} 0 

[NaL_{5}X_{4}]^{+} 0 

[NaL_{6}X_{4}]^{+} 0 
X+2Z = 5  
[NaX_{3}Z]^{+} 0 

[NaX_{5}]^{+} 0 

[NaLX_{5}]^{+} 0 

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

[NaL_{3}X_{5}]^{+} 0 

[NaL_{4}X_{5}]^{+} 0 

[NaL_{5}X_{5}]^{+} 0 

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

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

[NaX_{6}]^{+} 0 

[NaLX_{6}]^{+} 0 

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

[NaL_{3}X_{6}]^{+} 0 

[NaL_{4}X_{6}]^{+} 0 

[NaL_{5}X_{6}]^{+} 0 
X+2Z = 7  
[NaX_{3}Z_{2}]^{+} 0 

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

[NaX_{7}]^{+} 0 

[NaLX_{7}]^{+} 0 

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

[NaL_{3}X_{7}]^{+} 0 

[NaL_{4}X_{7}]^{+} 0 

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

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

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

[NaX_{8}]^{+} 0 

[NaLX_{8}]^{+} 0 

[NaL_{2}X_{8}]^{+} 0 

[NaL_{3}X_{8}]^{+} 0 

[NaL_{4}X_{8}]^{+} 0 
X+2Z = 9  
[NaX_{3}Z_{3}]^{+} 0 

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

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

[NaX_{9}]^{+} 0 

[NaLX_{9}]^{+} 0 

[NaL_{2}X_{9}]^{+} 0 

[NaL_{3}X_{9}]^{+} 0 

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

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

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

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

[NaX_{10}]^{+} 0 

[NaLX_{10}]^{+} 0 

[NaL_{2}X_{10}]^{+} 0 

[NaL_{3}X_{10}]^{+} 0 
X+2Z = 11  
[NaX_{3}Z_{4}]^{+} 0 

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

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

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

[NaX_{11}]^{+} 0 

[NaLX_{11}]^{+} 0 

[NaL_{2}X_{11}]^{+} 0 

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

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

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

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

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

[NaX_{12}]^{+} 0 

[NaLX_{12}]^{+} 0 

[NaL_{2}X_{12}]^{+} 0 
MLXZ^{q±} grid for sodium (Na) for Q = 2: [NaX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for sodium (Na) for Q = 3: [NaX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for sodium (Na) for Q = 4: [NaX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for magnesium (Mg) for Q = 6: [MgX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for magnesium (Mg) for Q = 5: [MgX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for magnesium (Mg) for Q = 4: [MgX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for magnesium (Mg) for Q = 3: [MgX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for magnesium (Mg) for Q = 2: [MgX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 6.
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 magnesium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10  11  12  13  14  15  16 

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

[MgL]^{2} 0 

[MgL_{2}]^{2} 0 

[MgL_{3}]^{2} 0 

[MgL_{4}]^{2} 0 

[MgL_{5}]^{2} 0 

[MgL_{6}]^{2} 0 
X+2Z = 1  
[MgX]^{2} 0 

[MgLX]^{2} 0 

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

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

[MgL_{4}X]^{2} 0 

[MgL_{5}X]^{2} 0 

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

[MgX_{2}]^{2} 0 

[MgLX_{2}]^{2} 0 

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

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

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

[MgL_{5}X_{2}]^{2} 0 
X+2Z = 3  
[MgXZ]^{2} 0 

[MgX_{3}]^{2} 0 

[MgLX_{3}]^{2} 0 

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

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

[MgL_{4}X_{3}]^{2} 0 

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

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

[MgX_{4}]^{2} 50% 

[MgLX_{4}]^{2} 0 

[MgL_{2}X_{4}]^{2} 33% 

[MgL_{3}X_{4}]^{2} 17% 

[MgL_{4}X_{4}]^{2} 0 
X+2Z = 5  
[MgXZ_{2}]^{2} 0 

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

[MgX_{5}]^{2} 0 

[MgLX_{5}]^{2} 0 

[MgL_{2}X_{5}]^{2} 0 

[MgL_{3}X_{5}]^{2} 0 

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

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

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

[MgX_{6}]^{2} 0 

[MgLX_{6}]^{2} 0 

[MgL_{2}X_{6}]^{2} 0 

[MgL_{3}X_{6}]^{2} 0 
X+2Z = 7  
[MgXZ_{3}]^{2} 0 

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

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

[MgX_{7}]^{2} 0 

[MgLX_{7}]^{2} 0 

[MgL_{2}X_{7}]^{2} 0 

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

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

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

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

[MgX_{8}]^{2} 0 

[MgLX_{8}]^{2} 0 

[MgL_{2}X_{8}]^{2} 0 
X+2Z = 9  
[MgXZ_{4}]^{2} 0 

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

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

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

[MgX_{9}]^{2} 0 

[MgLX_{9}]^{2} 0 

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

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

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

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

[MgX_{8}Z]^{2} 0 

[MgX_{10}]^{2} 0 

[MgLX_{10}]^{2} 0 
X+2Z = 11  
[MgXZ_{5}]^{2} 0 

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

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

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

[MgX_{9}Z]^{2} 0 

[MgX_{11}]^{2} 0 

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

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

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

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

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

[MgX_{10}Z]^{2} 0 

[MgX_{12}]^{2} 0 
MLXZ^{q±} grid for magnesium (Mg) for Q = 1: [MgX_{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 magnesium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10  11  12  13  14  15  16 

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

[MgL_{2}]^{} 0 

[MgL_{3}]^{} 0 

[MgL_{4}]^{} 0 

[MgL_{5}]^{} 0 

[MgL_{6}]^{} 0 

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

[MgLX]^{} 0 

[MgL_{2}X]^{} 0 

[MgL_{3}X]^{} 0 

[MgL_{4}X]^{} 0 

[MgL_{5}X]^{} 0 

[MgL_{6}X]^{} 0 
X+2Z = 2  
[MgX_{2}]^{} 0 

[MgLX_{2}]^{} 0 

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

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

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

[MgL_{5}X_{2}]^{} 0 

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

[MgX_{3}]^{} 100% 

[MgLX_{3}]^{} 0 

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

[MgL_{3}X_{3}]^{} 0 

[MgL_{4}X_{3}]^{} 0 

[MgL_{5}X_{3}]^{} 0 
X+2Z = 4  
[MgX_{2}Z]^{} 0 

[MgX_{4}]^{} 0 

[MgLX_{4}]^{} 0 

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

[MgL_{3}X_{4}]^{} 0 

[MgL_{4}X_{4}]^{} 0 

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

[MgX_{3}Z]^{} 0 

[MgX_{5}]^{} 0 

[MgLX_{5}]^{} 0 

[MgL_{2}X_{5}]^{} 0 

[MgL_{3}X_{5}]^{} 0 

[MgL_{4}X_{5}]^{} 0 
X+2Z = 6  
[MgX_{2}Z_{2}]^{} 0 

[MgX_{4}Z]^{} 0 

[MgX_{6}]^{} 0 

[MgLX_{6}]^{} 0 

[MgL_{2}X_{6}]^{} 0 

[MgL_{3}X_{6}]^{} 0 

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

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

[MgX_{5}Z]^{} 0 

[MgX_{7}]^{} 0 

[MgLX_{7}]^{} 0 

[MgL_{2}X_{7}]^{} 0 

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

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

[MgX_{6}Z]^{} 0 

[MgX_{8}]^{} 0 

[MgLX_{8}]^{} 0 

[MgL_{2}X_{8}]^{} 0 

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

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

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

[MgX_{7}Z]^{} 0 

[MgX_{9}]^{} 0 

[MgLX_{9}]^{} 0 

[MgL_{2}X_{9}]^{} 0 
X+2Z = 10  
[MgX_{2}Z_{4}]^{} 0 

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

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

[MgX_{8}Z]^{} 0 

[MgX_{10}]^{} 0 

[MgLX_{10}]^{} 0 

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

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

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

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

[MgX_{9}Z]^{} 0 

[MgX_{11}]^{} 0 

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

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

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

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

[MgX_{10}Z]^{} 0 

[MgX_{12}]^{} 0 

MLXZ^{q±} grid for magnesium (Mg) for Q = 0: [MgX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 106.
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 magnesium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10  11  12  13  14  15  16 

X+2Z = 0  [MgL] 0 

[MgL_{2}] 0 

[MgL_{3}] 0 

[MgL_{4}] 0 

[MgL_{5}] 0 

[MgL_{6}] 0 

[MgL_{7}] 0 
X+2Z = 1  
[MgLX] 0 

[MgL_{2}X] 0 

[MgL_{3}X] 0 

[MgL_{4}X] 0 

[MgL_{5}X] 0 

[MgL_{6}X] 0 

X+2Z = 2  [MgX_{2}] 2% 

[MgLX_{2}] 3% 

[MgL_{2}X_{2}] 44% 

[MgL_{3}X_{2}] 8% 

[MgL_{4}X_{2}] 37% 

[MgL_{5}X_{2}] 6% 

[MgL_{6}X_{2}] 1% 
X+2Z = 3  
[MgX_{3}] 0 

[MgLX_{3}] 0 

[MgL_{2}X_{3}] 0 

[MgL_{3}X_{3}] 0 

[MgL_{4}X_{3}] 0 

[MgL_{5}X_{3}] 0 

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

[MgX_{4}] 0 

[MgLX_{4}] 0 

[MgL_{2}X_{4}] 0 

[MgL_{3}X_{4}] 0 

[MgL_{4}X_{4}] 0 

[MgL_{5}X_{4}] 0 
X+2Z = 5  
[MgX_{3}Z] 0 

[MgX_{5}] 0 

[MgLX_{5}] 0 

[MgL_{2}X_{5}] 0 

[MgL_{3}X_{5}] 0 

[MgL_{4}X_{5}] 0 

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

[MgX_{4}Z] 0 

[MgX_{6}] 0 

[MgLX_{6}] 0 

[MgL_{2}X_{6}] 0 

[MgL_{3}X_{6}] 0 

[MgL_{4}X_{6}] 0 
X+2Z = 7  
[MgX_{3}Z_{2}] 0 

[MgX_{5}Z] 0 

[MgX_{7}] 0 

[MgLX_{7}] 0 

[MgL_{2}X_{7}] 0 

[MgL_{3}X_{7}] 0 

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

[MgX_{4}Z_{2}] 0 

[MgX_{6}Z] 0 

[MgX_{8}] 0 

[MgLX_{8}] 0 

[MgL_{2}X_{8}] 0 

[MgL_{3}X_{8}] 0 
X+2Z = 9  
[MgX_{3}Z_{3}] 0 

[MgX_{5}Z_{2}] 0 

[MgX_{7}Z] 0 

[MgX_{9}] 0 

[MgLX_{9}] 0 

[MgL_{2}X_{9}] 0 

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

[MgX_{4}Z_{3}] 0 

[MgX_{6}Z_{2}] 0 

[MgX_{8}Z] 0 

[MgX_{10}] 0 

[MgLX_{10}] 0 

[MgL_{2}X_{10}] 0 
X+2Z = 11  
[MgX_{3}Z_{4}] 0 

[MgX_{5}Z_{3}] 0 

[MgX_{7}Z_{2}] 0 

[MgX_{9}Z] 0 

[MgX_{11}] 0 

[MgLX_{11}] 0 

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

[MgX_{4}Z_{4}] 0 

[MgX_{6}Z_{3}] 0 

[MgX_{8}Z_{2}] 0 

[MgX_{10}Z] 0 

[MgX_{12}] 0 

[MgLX_{12}] 0 
MLXZ^{q±} grid for magnesium (Mg) for Q = 1: [MgX_{x}L_{l}Z_{z}]^{+}
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]^{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 magnesium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10  11  12  13  14  15  16 

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

[MgL_{3}]^{+} 0 

[MgL_{4}]^{+} 0 

[MgL_{5}]^{+} 0 

[MgL_{6}]^{+} 0 

[MgL_{7}]^{+} 0 

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

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

[MgL_{3}X]^{+} 25% 

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

[MgL_{5}X]^{+} 75% 

[MgL_{6}X]^{+} 0 

[MgL_{7}X]^{+} 0 
X+2Z = 2  
[MgLX_{2}]^{+} 0 

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

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

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

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

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

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

[MgLX_{3}]^{+} 0 

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

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

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

[MgL_{5}X_{3}]^{+} 0 

[MgL_{6}X_{3}]^{+} 0 
X+2Z = 4  
[MgX_{4}]^{+} 0 

[MgLX_{4}]^{+} 0 

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

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

[MgL_{4}X_{4}]^{+} 0 

[MgL_{5}X_{4}]^{+} 0 

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

[MgX_{5}]^{+} 0 

[MgLX_{5}]^{+} 0 

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

[MgL_{3}X_{5}]^{+} 0 

[MgL_{4}X_{5}]^{+} 0 

[MgL_{5}X_{5}]^{+} 0 
X+2Z = 6  
[MgX_{4}Z]^{+} 0 

[MgX_{6}]^{+} 0 

[MgLX_{6}]^{+} 0 

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

[MgL_{3}X_{6}]^{+} 0 

[MgL_{4}X_{6}]^{+} 0 

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

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

[MgX_{7}]^{+} 0 

[MgLX_{7}]^{+} 0 

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

[MgL_{3}X_{7}]^{+} 0 

[MgL_{4}X_{7}]^{+} 0 
X+2Z = 8  
[MgX_{4}Z_{2}]^{+} 0 

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

[MgX_{8}]^{+} 0 

[MgLX_{8}]^{+} 0 

[MgL_{2}X_{8}]^{+} 0 

[MgL_{3}X_{8}]^{+} 0 

X+2Z = 9  [MgX_{3}Z_{3}]^{+} 0 

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

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

[MgX_{9}]^{+} 0 

[MgLX_{9}]^{+} 0 

[MgL_{2}X_{9}]^{+} 0 

[MgL_{3}X_{9}]^{+} 0 
X+2Z = 10  
[MgX_{4}Z_{3}]^{+} 0 

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

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

[MgX_{10}]^{+} 0 

[MgLX_{10}]^{+} 0 

[MgL_{2}X_{10}]^{+} 0 

X+2Z = 11  [MgX_{3}Z_{4}]^{+} 0 

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

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

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

[MgX_{11}]^{+} 0 

[MgLX_{11}]^{+} 0 

[MgL_{2}X_{11}]^{+} 0 
X+2Z = 12  
[MgX_{4}Z_{4}]^{+} 0 

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

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

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

[MgX_{12}]^{+} 0 

[MgLX_{12}]^{+} 0 

MLXZ^{q±} grid for magnesium (Mg) for Q = 2: [MgX_{x}L_{l}Z_{z}]^{2+}
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]^{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 magnesium with that [MLXZ]^{q±} classification.
EN➝  4  5  6  7  8  9  10  11  12  13  14  15  16 

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

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

[MgL_{4}]^{2+} 4% 

[MgL_{5}]^{2+} 8% 

[MgL_{6}]^{2+} 63% 

[MgL_{7}]^{2+} 21% 

[MgL_{8}]^{2+} 4% 
X+2Z = 1  
[MgL_{2}X]^{2+} 0 

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

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

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

[MgL_{6}X]^{2+} 0 

[MgL_{7}X]^{2+} 0 

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

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

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

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

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

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

[MgL_{7}X_{2}]^{2+} 0 
X+2Z = 3  
[MgLX_{3}]^{2+} 0 

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

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

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

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

[MgL_{6}X_{3}]^{2+} 0 

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

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

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

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

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

[MgL_{5}X_{4}]^{2+} 0 

[MgL_{6}X_{4}]^{2+} 0 
X+2Z = 5  
[MgX_{5}]^{2+} 0 

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

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

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

[MgL_{4}X_{5}]^{2+} 0 

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

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

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

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

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

[MgL_{3}X_{6}]^{2+} 0 

[MgL_{4}X_{6}]^{2+} 0 

[MgL_{5}X_{6}]^{2+} 0 
X+2Z = 7  
[MgX_{5}Z]^{2+} 0 

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

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

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

[MgL_{3}X_{7}]^{2+} 0 

[MgL_{4}X_{7}]^{2+} 0 

X+2Z = 8  [MgX_{4}Z_{2}]^{2+} 0 

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

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

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

[MgL_{2}X_{8}]^{2+} 0 

[MgL_{3}X_{8}]^{2+} 0 

[MgL_{4}X_{8}]^{2+} 0 
X+2Z = 9  
[MgX_{5}Z_{2}]^{2+} 0 

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

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

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

[MgL_{2}X_{9}]^{2+} 0 

[MgL_{3}X_{9}]^{2+} 0 

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

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

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

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

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

[MgL_{2}X_{10}]^{2+} 0 

[MgL_{3}X_{10}]^{2+} 0 
X+2Z = 11  
[MgX_{5}Z_{3}]^{2+} 0 

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

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

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

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

[MgL_{2}X_{11}]^{2+} 0 

X+2Z = 12  [MgX_{4}Z_{4}]^{2+} 0 

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

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

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

[MgX_{12}]^{2+} 0 

[MgLX_{12}]^{2+} 0 

[MgL_{2}X_{12}]^{2+} 0 
MLXZ^{q±} grid for magnesium (Mg) for Q = 3: [MgX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for magnesium (Mg) for Q = 4: [MgX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for aluminium (Al) for Q = 6: [AlX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for aluminium (Al) for Q = 5: [AlX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for aluminium (Al) for Q = 4: [AlX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for aluminium (Al) for Q = 3: [AlX_{x}L_{l}Z_{z}]^{3}
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]^{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 aluminium with that [MLXZ]^{q±} classification.
EN➝  6  7  8  9  10  11  12 

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

[AlL]^{3} 0 

[AlL_{2}]^{3} 0 

[AlL_{3}]^{3} 0 
X+2Z = 1  
[AlX]^{3} 0 

[AlLX]^{3} 0 

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

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

[AlX_{2}]^{3} 0 

[AlLX_{2}]^{3} 0 

[AlL_{2}X_{2}]^{3} 0 
X+2Z = 3  
[AlXZ]^{3} 0 

[AlX_{3}]^{3} 0 

[AlLX_{3}]^{3} 0 

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

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

[AlX_{4}]^{3} 0 

[AlLX_{4}]^{3} 0 
X+2Z = 5  
[AlXZ_{2}]^{3} 0 

[AlX_{3}Z]^{3} 0 

[AlX_{5}]^{3} 0 

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

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

[AlX_{4}Z]^{3} 0 

[AlX_{6}]^{3} 100% 
X+2Z = 7  
[AlXZ_{3}]^{3} 0 

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

[AlX_{5}Z]^{3} 0 

X+2Z = 8  [AlZ_{4}]^{3} 0 

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

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

[AlX_{6}Z]^{3} 0 
X+2Z = 9  
[AlXZ_{4}]^{3} 0 

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

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

X+2Z = 10  [AlZ_{5}]^{3} 0 

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

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

[AlX_{6}Z_{2}]^{3} 0 
X+2Z = 11  
[AlXZ_{5}]^{3} 0 

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

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

X+2Z = 12  [AlZ_{6}]^{3} 0 

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

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

[AlX_{6}Z_{3}]^{3} 0 
MLXZ^{q±} grid for aluminium (Al) for Q = 2: [AlX_{x}L_{l}Z_{z}]^{2}
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]^{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 aluminium with that [MLXZ]^{q±} classification.
EN➝  6  7  8  9  10  11  12 

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

[AlL_{2}]^{2} 0 

[AlL_{3}]^{2} 0 

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

[AlLX]^{2} 0 

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

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

[AlLX_{2}]^{2} 0 

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

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

[AlX_{3}]^{2} 0 

[AlLX_{3}]^{2} 0 

[AlL_{2}X_{3}]^{2} 0 
X+2Z = 4  
[AlX_{2}Z]^{2} 0 

[AlX_{4}]^{2} 0 

[AlLX_{4}]^{2} 0 

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

[AlX_{3}Z]^{2} 25% 

[AlX_{5}]^{2} 0 

[AlLX_{5}]^{2} 75% 
X+2Z = 6  
[AlX_{2}Z_{2}]^{2} 0 

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

[AlX_{6}]^{2} 0 

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

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

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

[AlX_{7}]^{2} 0 
X+2Z = 8  
[AlX_{2}Z_{3}]^{2} 0 

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

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

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

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

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

[AlX_{7}Z]^{2} 0 
X+2Z = 10  
[AlX_{2}Z_{4}]^{2} 0 

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

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

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

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

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

[AlX_{7}Z_{2}]^{2} 0 
X+2Z = 12  
[AlX_{2}Z_{5}]^{2} 0 

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

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

MLXZ^{q±} grid for aluminium (Al) for Q = 1: [AlX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 82.
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 aluminium with that [MLXZ]^{q±} classification.
EN➝  6  7  8  9  10  11  12 

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

[AlL_{2}]^{} 0 

[AlL_{3}]^{} 0 

[AlL_{4}]^{} 0 
X+2Z = 1  
[AlLX]^{} 0 

[AlL_{2}X]^{} 0 

[AlL_{3}X]^{} 0 

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

[AlLX_{2}]^{} 0 

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

[AlL_{3}X_{2}]^{} 0 
X+2Z = 3  
[AlX_{3}]^{} 0 

[AlLX_{3}]^{} 0 

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

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

[AlX_{4}]^{} 89% 

[AlLX_{4}]^{} 0 

[AlL_{2}X_{4}]^{} 11% 
X+2Z = 5  
[AlX_{3}Z]^{} 0 

[AlX_{5}]^{} 0 

[AlLX_{5}]^{} 0 

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

[AlX_{4}Z]^{} 0 

[AlX_{6}]^{} 0 

[AlLX_{6}]^{} 0 
X+2Z = 7  
[AlX_{3}Z_{2}]^{} 0 

[AlX_{5}Z]^{} 0 

[AlX_{7}]^{} 0 

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

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

[AlX_{6}Z]^{} 0 

[AlX_{8}]^{} 0 
X+2Z = 9  
[AlX_{3}Z_{3}]^{} 0 

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

[AlX_{7}Z]^{} 0 

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

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

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

[AlX_{8}Z]^{} 0 
X+2Z = 11  
[AlX_{3}Z_{4}]^{} 0 

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

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

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

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

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

[AlX_{8}Z_{2}]^{} 0 
MLXZ^{q±} grid for aluminium (Al) for Q = 0: [AlX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 495.
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 aluminium with that [MLXZ]^{q±} classification.
EN➝  6  7  8  9  10  11  12 

X+2Z = 0  
[AlL_{2}] 0 

[AlL_{3}] 0 

[AlL_{4}] 0 

X+2Z = 1  [AlLX] 0 

[AlL_{2}X] 0 

[AlL_{3}X] 0 

[AlL_{4}X] 0 
X+2Z = 2  
[AlLX_{2}] 0 

[AlL_{2}X_{2}] 0.2% 

[AlL_{3}X_{2}] 0 

X+2Z = 3  [AlX_{3}] 7% 

[AlLX_{3}] 82% 

[AlL_{2}X_{3}] 6% 

[AlL_{3}X_{3}] 5% 
X+2Z = 4  
[AlX_{4}] 0 

[AlLX_{4}] 0 

[AlL_{2}X_{4}] 0 

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

[AlX_{5}] 0 

[AlLX_{5}] 0 

[AlL_{2}X_{5}] 0 
X+2Z = 6  
[AlX_{4}Z] 0 

[AlX_{6}] 0 

[AlLX_{6}] 0 

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

[AlX_{5}Z] 0 

[AlX_{7}] 0 

[AlLX_{7}] 0 
X+2Z = 8  
[AlX_{4}Z_{2}] 0 

[AlX_{6}Z] 0 

[AlX_{8}] 0 

X+2Z = 9  [AlX_{3}Z_{3}] 0 

[AlX_{5}Z_{2}] 0 

[AlX_{7}Z] 0 

[AlX_{9}] 0 
X+2Z = 10  
[AlX_{4}Z_{3}] 0 

[AlX_{6}Z_{2}] 0 

[AlX_{8}Z] 0 

X+2Z = 11  [AlX_{3}Z_{4}] 0 

[AlX_{5}Z_{3}] 0 

[AlX_{7}Z_{2}] 0 

[AlX_{9}Z] 0 
X+2Z = 12  
[AlX_{4}Z_{4}] 0 

[AlX_{6}Z_{3}] 0 

[AlX_{8}Z_{2}] 0 

MLXZ^{q±} grid for aluminium (Al) for Q = 1: [AlX_{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 aluminium with that [MLXZ]^{q±} classification.
EN➝  6  7  8  9  10  11  12 

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

[AlL_{3}]^{+} 0 

[AlL_{4}]^{+} 0 

[AlL_{5}]^{+} 0 
X+2Z = 1  
[AlL_{2}X]^{+} 0 

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

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

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

[AlL_{2}X_{2}]^{+} 35% 

[AlL_{3}X_{2}]^{+} 4% 

[AlL_{4}X_{2}]^{+} 62% 
X+2Z = 3  
[AlLX_{3}]^{+} 0 

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

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

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

[AlLX_{4}]^{+} 0 

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

[AlL_{3}X_{4}]^{+} 0 
X+2Z = 5  
[AlX_{5}]^{+} 0 

[AlLX_{5}]^{+} 0 

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

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

[AlX_{6}]^{+} 0 

[AlLX_{6}]^{+} 0 

[AlL_{2}X_{6}]^{+} 0 
X+2Z = 7  
[AlX_{5}Z]^{+} 0 

[AlX_{7}]^{+} 0 

[AlLX_{7}]^{+} 0 

X+2Z = 8  [AlX_{4}Z_{2}]^{+} 0 

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

[AlX_{8}]^{+} 0 

[AlLX_{8}]^{+} 0 
X+2Z = 9  
[AlX_{5}Z_{2}]^{+} 0 

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

[AlX_{9}]^{+} 0 

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

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

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

[AlX_{10}]^{+} 0 
X+2Z = 11  
[AlX_{5}Z_{3}]^{+} 0 

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

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

X+2Z = 12  [AlX_{4}Z_{4}]^{+} 0 

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

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

[AlX_{10}Z]^{+} 0 
MLXZ^{q±} grid for aluminium (Al) for Q = 2: [AlX_{x}L_{l}Z_{z}]^{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]^{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 aluminium with that [MLXZ]^{q±} classification.
EN➝  6  7  8  9  10  11  12 

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

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

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

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

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

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

[AlL_{5}X]^{2+} 100% 
X+2Z = 2  
[AlL_{2}X_{2}]^{2+} 0 

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

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

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

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

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

[AlL_{4}X_{3}]^{2+} 0 
X+2Z = 4  
[AlLX_{4}]^{2+} 0 

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

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

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

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

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

[AlL_{3}X_{5}]^{2+} 0 
X+2Z = 6  
[AlX_{6}]^{2+} 0 

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

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

X+2Z = 7  [AlX_{5}Z]^{2+} 0 

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

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

[AlL_{2}X_{7}]^{2+} 0 
X+2Z = 8  
[AlX_{6}Z]^{2+} 0 

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

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

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

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

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

[AlLX_{9}]^{2+} 0 
X+2Z = 10  
[AlX_{6}Z_{2}]^{2+} 0 

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

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

X+2Z = 11  [AlX_{5}Z_{3}]^{2+} 0 

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

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

[AlX_{11}]^{2+} 0 
X+2Z = 12  
[AlX_{6}Z_{3}]^{2+} 0 

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

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

MLXZ^{q±} grid for aluminium (Al) for Q = 3: [AlX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 6.
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 aluminium with that [MLXZ]^{q±} classification.
EN➝  6  7  8  9  10  11  12 

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

[AlL_{4}]^{3+} 0 

[AlL_{5}]^{3+} 0 

[AlL_{6}]^{3+} 100% 
X+2Z = 1  
[AlL_{3}X]^{3+} 0 

[AlL_{4}X]^{3+} 0 

[AlL_{5}X]^{3+} 0 

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

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

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

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

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

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

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

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

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

[AlL_{4}X_{4}]^{3+} 0 
X+2Z = 5  
[AlLX_{5}]^{3+} 0 

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

[AlL_{3}X_{5}]^{3+} 0 

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

[AlLX_{6}]^{3+} 0 

[AlL_{2}X_{6}]^{3+} 0 

[AlL_{3}X_{6}]^{3+} 0 
X+2Z = 7  
[AlX_{7}]^{3+} 0 

[AlLX_{7}]^{3+} 0 

[AlL_{2}X_{7}]^{3+} 0 

X+2Z = 8  [AlX_{6}Z]^{3+} 0 

[AlX_{8}]^{3+} 0 

[AlLX_{8}]^{3+} 0 

[AlL_{2}X_{8}]^{3+} 0 
X+2Z = 9  
[AlX_{7}Z]^{3+} 0 

[AlX_{9}]^{3+} 0 

[AlLX_{9}]^{3+} 0 

X+2Z = 10  [AlX_{6}Z_{2}]^{3+} 0 

[AlX_{8}Z]^{3+} 0 

[AlX_{10}]^{3+} 0 

[AlLX_{10}]^{3+} 0 
X+2Z = 11  
[AlX_{7}Z_{2}]^{3+} 0 

[AlX_{9}Z]^{3+} 0 

[AlX_{11}]^{3+} 0 

X+2Z = 12  [AlX_{6}Z_{3}]^{3+} 0 

[AlX_{8}Z_{2}]^{3+} 0 

[AlX_{10}Z]^{3+} 0 

[AlX_{12}]^{3+} 0 
MLXZ^{q±} grid for aluminium (Al) for Q = 4: [AlX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for silicon (Si) for Q = 6: [SiX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for silicon (Si) for Q = 5: [SiX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for silicon (Si) for Q = 4: [SiX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for silicon (Si) for Q = 3: [SiX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for silicon (Si) for Q = 2: [SiX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 15.
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 silicon with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12  13  14 

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

[SiL_{2}]^{2} 0 

[SiL_{3}]^{2} 0 

[SiL_{4}]^{2} 0 
X+2Z = 1  
[SiLX]^{2} 0 

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

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

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

[SiLX_{2}]^{2} 0 

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

[SiL_{3}X_{2}]^{2} 0 
X+2Z = 3  
[SiX_{3}]^{2} 0 

[SiLX_{3}]^{2} 0 

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

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

[SiX_{4}]^{2} 0 

[SiLX_{4}]^{2} 0 

[SiL_{2}X_{4}]^{2} 0 
X+2Z = 5  
[SiX_{3}Z]^{2} 0 

[SiX_{5}]^{2} 0 

[SiLX_{5}]^{2} 0 

X+2Z = 6  [SiX_{2}Z_{2}]^{2} 7% 

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

[SiX_{6}]^{2} 93% 

[SiLX_{6}]^{2} 0 
X+2Z = 7  
[SiX_{3}Z_{2}]^{2} 0 

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

[SiX_{7}]^{2} 0 

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

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

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

[SiX_{8}]^{2} 0 
X+2Z = 9  
[SiX_{3}Z_{3}]^{2} 0 

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

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

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

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

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

[SiX_{8}Z]^{2} 0 
X+2Z = 11  
[SiX_{3}Z_{4}]^{2} 0 

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

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

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

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

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

[SiX_{8}Z_{2}]^{2} 0 
MLXZ^{q±} grid for silicon (Si) for Q = 1: [SiX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 23.
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 silicon with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12  13  14 

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

[SiL_{3}]^{} 0 

[SiL_{4}]^{} 0 

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

[SiL_{2}X]^{} 0 

[SiL_{3}X]^{} 0 

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

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

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

X+2Z = 3  [SiX_{3}]^{} 4% 

[SiLX_{3}]^{} 0 

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

[SiL_{3}X_{3}]^{} 0 
X+2Z = 4  
[SiX_{4}]^{} 0 

[SiLX_{4}]^{} 0 

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

X+2Z = 5  [SiX_{3}Z]^{} 4% 

[SiX_{5}]^{} 83% 

[SiLX_{5}]^{} 9% 

[SiL_{2}X_{5}]^{} 0 
X+2Z = 6  
[SiX_{4}Z]^{} 0 

[SiX_{6}]^{} 0 

[SiLX_{6}]^{} 0 

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

[SiX_{5}Z]^{} 0 

[SiX_{7}]^{} 0 

[SiLX_{7}]^{} 0 
X+2Z = 8  
[SiX_{4}Z_{2}]^{} 0 

[SiX_{6}Z]^{} 0 

[SiX_{8}]^{} 0 

X+2Z = 9  [SiX_{3}Z_{3}]^{} 0 

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

[SiX_{7}Z]^{} 0 

[SiX_{9}]^{} 0 
X+2Z = 10  
[SiX_{4}Z_{3}]^{} 0 

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

[SiX_{8}Z]^{} 0 

X+2Z = 11  [SiX_{3}Z_{4}]^{} 0 

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

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

[SiX_{9}Z]^{} 0 
X+2Z = 12  
[SiX_{4}Z_{4}]^{} 0 

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

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

MLXZ^{q±} grid for silicon (Si) for Q = 0: [SiX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 1432.
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 silicon with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12  13  14 

X+2Z = 0  [SiL_{2}] 0 

[SiL_{3}] 0 

[SiL_{4}] 0 

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

[SiL_{3}X] 0 

[SiL_{4}X] 0 

X+2Z = 2  [SiLX_{2}] 0.2% 

[SiL_{2}X_{2}] 0 

[SiL_{3}X_{2}] 0 

[SiL_{4}X_{2}] 0.1% 
X+2Z = 3  
[SiLX_{3}] 0 

[SiL_{2}X_{3}] 0 

[SiL_{3}X_{3}] 0 

X+2Z = 4  [SiX_{4}] 96% 

[SiLX_{4}] 0.5% 

[SiL_{2}X_{4}] 4% 

[SiL_{3}X_{4}] 0 
X+2Z = 5  
[SiX_{5}] 0 

[SiLX_{5}] 0 

[SiL_{2}X_{5}] 0 

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

[SiX_{6}] 0 

[SiLX_{6}] 0 

[SiL_{2}X_{6}] 0 
X+2Z = 7  
[SiX_{5}Z] 0 

[SiX_{7}] 0 

[SiLX_{7}] 0 

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

[SiX_{6}Z] 0 

[SiX_{8}] 0 

[SiLX_{8}] 0 
X+2Z = 9  
[SiX_{5}Z_{2}] 0 

[SiX_{7}Z] 0 

[SiX_{9}] 0 

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

[SiX_{6}Z_{2}] 0 

[SiX_{8}Z] 0 

[SiX_{10}] 0 
X+2Z = 11  
[SiX_{5}Z_{3}] 0 

[SiX_{7}Z_{2}] 0 

[SiX_{9}Z] 0 

X+2Z = 12  [SiX_{4}Z_{4}] 0 

[SiX_{6}Z_{3}] 0 

[SiX_{8}Z_{2}] 0 

[SiX_{10}Z] 0 
MLXZ^{q±} grid for silicon (Si) for Q = 1: [SiX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 8.
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 silicon with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12  13  14 

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

[SiL_{4}]^{+} 0 

[SiL_{5}]^{+} 0 

X+2Z = 1  [SiL_{2}X]^{+} 13% 

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

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

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

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

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

X+2Z = 3  [SiLX_{3}]^{+} 38% 

[SiL_{2}X_{3}]^{+} 25% 

[SiL_{3}X_{3}]^{+} 25% 

[SiL_{4}X_{3}]^{+} 0 
X+2Z = 4  
[SiLX_{4}]^{+} 0 

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

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

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

[SiLX_{5}]^{+} 0 

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

[SiL_{3}X_{5}]^{+} 0 
X+2Z = 6  
[SiX_{6}]^{+} 0 

[SiLX_{6}]^{+} 0 

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

X+2Z = 7  [SiX_{5}Z]^{+} 0 

[SiX_{7}]^{+} 0 

[SiLX_{7}]^{+} 0 

[SiL_{2}X_{7}]^{+} 0 
X+2Z = 8  
[SiX_{6}Z]^{+} 0 

[SiX_{8}]^{+} 0 

[SiLX_{8}]^{+} 0 

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

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

[SiX_{9}]^{+} 0 

[SiLX_{9}]^{+} 0 
X+2Z = 10  
[SiX_{6}Z_{2}]^{+} 0 

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

[SiX_{10}]^{+} 0 

X+2Z = 11  [SiX_{5}Z_{3}]^{+} 0 

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

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

[SiX_{11}]^{+} 0 
X+2Z = 12  
[SiX_{6}Z_{3}]^{+} 0 

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

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

MLXZ^{q±} grid for silicon (Si) for Q = 2: [SiX_{x}L_{l}Z_{z}]^{2+}
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]^{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 silicon with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12  13  14 

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

[SiL_{4}]^{2+} 11% 

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

[SiL_{6}]^{2+} 0 
X+2Z = 1  
[SiL_{3}X]^{2+} 0 

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

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

X+2Z = 2  [SiL_{2}X_{2}]^{2+} 0 

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

[SiL_{4}X_{2}]^{2+} 89% 

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

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

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

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

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

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

[SiL_{4}X_{4}]^{2+} 0 
X+2Z = 5  
[SiLX_{5}]^{2+} 0 

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

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

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

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

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

[SiL_{3}X_{6}]^{2+} 0 
X+2Z = 7  
[SiX_{7}]^{2+} 0 

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

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

X+2Z = 8  [SiX_{6}Z]^{2+} 0 

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

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

[SiL_{2}X_{8}]^{2+} 0 
X+2Z = 9  
[SiX_{7}Z]^{2+} 0 

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

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

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

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

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

[SiLX_{10}]^{2+} 0 
X+2Z = 11  
[SiX_{7}Z_{2}]^{2+} 0 

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

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

X+2Z = 12  [SiX_{6}Z_{3}]^{2+} 0 

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

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

[SiX_{12}]^{2+} 0 
MLXZ^{q±} grid for silicon (Si) for Q = 3: [SiX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for silicon (Si) for Q = 4: [SiX_{x}L_{l}Z_{z}]^{4+}
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]^{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 silicon with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12  13  14 

X+2Z = 0  [SiL_{4}]^{4+} 33% 

[SiL_{5}]^{4+} 0 

[SiL_{6}]^{4+} 67% 

[SiL_{7}]^{4+} 0 
X+2Z = 1  
[SiL_{4}X]^{4+} 0 

[SiL_{5}X]^{4+} 0 

[SiL_{6}X]^{4+} 0 

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

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

[SiL_{5}X_{2}]^{4+} 0 

[SiL_{6}X_{2}]^{4+} 0 
X+2Z = 3  
[SiL_{3}X_{3}]^{4+} 0 

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

[SiL_{5}X_{3}]^{4+} 0 

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

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

[SiL_{4}X_{4}]^{4+} 0 

[SiL_{5}X_{4}]^{4+} 0 
X+2Z = 5  
[SiL_{2}X_{5}]^{4+} 0 

[SiL_{3}X_{5}]^{4+} 0 

[SiL_{4}X_{5}]^{4+} 0 

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

[SiL_{2}X_{6}]^{4+} 0 

[SiL_{3}X_{6}]^{4+} 0 

[SiL_{4}X_{6}]^{4+} 0 
X+2Z = 7  
[SiLX_{7}]^{4+} 0 

[SiL_{2}X_{7}]^{4+} 0 

[SiL_{3}X_{7}]^{4+} 0 

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

[SiLX_{8}]^{4+} 0 

[SiL_{2}X_{8}]^{4+} 0 

[SiL_{3}X_{8}]^{4+} 0 
X+2Z = 9  
[SiX_{9}]^{4+} 0 

[SiLX_{9}]^{4+} 0 

[SiL_{2}X_{9}]^{4+} 0 

X+2Z = 10  [SiX_{8}Z]^{4+} 0 

[SiX_{10}]^{4+} 0 

[SiLX_{10}]^{4+} 0 

[SiL_{2}X_{10}]^{4+} 0 
X+2Z = 11  
[SiX_{9}Z]^{4+} 0 

[SiX_{11}]^{4+} 0 

[SiLX_{11}]^{4+} 0 

X+2Z = 12  [SiX_{8}Z_{2}]^{4+} 0 

[SiX_{10}Z]^{4+} 0 

[SiX_{12}]^{4+} 0 

[SiLX_{12}]^{4+} 0 
MLXZ^{q±} grid for phosphorus (P) for Q = 6: [PX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for phosphorus (P) for Q = 5: [PX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for phosphorus (P) for Q = 4: [PX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for phosphorus (P) for Q = 3: [PX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for phosphorus (P) for Q = 2: [PX_{x}L_{l}Z_{z}]^{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]^{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 phosphorus with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12 

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

[PL_{2}]^{2} 0 

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

[PLX]^{2} 0 

[PL_{2}X]^{2} 0 
X+2Z = 2  
[PX_{2}]^{2} 0 

[PLX_{2}]^{2} 0 

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

[PX_{3}]^{2} 0 

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

[PX_{4}]^{2} 0 

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

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

[PX_{5}]^{2} 0 
X+2Z = 6  
[PX_{2}Z_{2}]^{2} 0 

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

X+2Z = 7  [PXZ_{3}]^{2} 100% 

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

[PX_{5}Z]^{2} 0 
X+2Z = 8  
[PX_{2}Z_{3}]^{2} 0 

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

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

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

[PX_{5}Z_{2}]^{2} 0 
X+2Z = 10  
[PX_{2}Z_{4}]^{2} 0 

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

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

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

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

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

MLXZ^{q±} grid for phosphorus (P) for Q = 1: [PX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 20.
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 phosphorus with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12 

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

[PL_{2}]^{} 0 

[PL_{3}]^{} 0 
X+2Z = 1  
[PLX]^{} 0 

[PL_{2}X]^{} 0 

X+2Z = 2  [PX_{2}]^{} 25% 

[PLX_{2}]^{} 0 

[PL_{2}X_{2}]^{} 0 
X+2Z = 3  
[PX_{3}]^{} 0 

[PLX_{3}]^{} 0 

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

[PX_{4}]^{} 10% 

[PLX_{4}]^{} 0 
X+2Z = 5  
[PX_{3}Z]^{} 0 

[PX_{5}]^{} 0 

X+2Z = 6  [PX_{2}Z_{2}]^{} 15% 

[PX_{4}Z]^{} 0 

[PX_{6}]^{} 50% 
X+2Z = 7  
[PX_{3}Z_{2}]^{} 0 

[PX_{5}Z]^{} 0 

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

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

[PX_{6}Z]^{} 0 
X+2Z = 9  
[PX_{3}Z_{3}]^{} 0 

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

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

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

[PX_{6}Z_{2}]^{} 0 
X+2Z = 11  
[PX_{3}Z_{4}]^{} 0 

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

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

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

[PX_{6}Z_{3}]^{} 0 
MLXZ^{q±} grid for phosphorus (P) for Q = 0: [PX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 3044.
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 phosphorus with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12 

X+2Z = 0  
[PL_{2}] 0 

[PL_{3}] 0 

X+2Z = 1  [PLX] 0 

[PL_{2}X] 0 

[PL_{3}X] 0 
X+2Z = 2  
[PLX_{2}] 0 

[PL_{2}X_{2}] 0 

X+2Z = 3  [PX_{3}] 5% 

[PLX_{3}] 0.1% 

[PL_{2}X_{3}] 0 
X+2Z = 4  
[PX_{4}] 0 

[PLX_{4}] 0 

X+2Z = 5  [PX_{3}Z] 94% 

[PX_{5}] 1% 

[PLX_{5}] 0.4% 
X+2Z = 6  
[PX_{4}Z] 0 

[PX_{6}] 0 

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

[PX_{5}Z] 0 

[PX_{7}] 0 
X+2Z = 8  
[PX_{4}Z_{2}] 0 

[PX_{6}Z] 0 

X+2Z = 9  [PX_{3}Z_{3}] 0 

[PX_{5}Z_{2}] 0 

[PX_{7}Z] 0 
X+2Z = 10  
[PX_{4}Z_{3}] 0 

[PX_{6}Z_{2}] 0 

X+2Z = 11  [PX_{3}Z_{4}] 0 

[PX_{5}Z_{3}] 0 

[PX_{7}Z_{2}] 0 
X+2Z = 12  
[PX_{4}Z_{4}] 0 

[PX_{6}Z_{3}] 0 

MLXZ^{q±} grid for phosphorus (P) for Q = 1: [PX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 116.
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 phosphorus with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12 

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

[PL_{3}]^{+} 0 

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

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

X+2Z = 2  [PLX_{2}]^{+} 3% 

[PL_{2}X_{2}]^{+} 1% 

[PL_{3}X_{2}]^{+} 0 
X+2Z = 3  
[PLX_{3}]^{+} 0 

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

X+2Z = 4  [PX_{4}]^{+} 92% 

[PLX_{4}]^{+} 0 

[PL_{2}X_{4}]^{+} 4% 
X+2Z = 5  
[PX_{5}]^{+} 0 

[PLX_{5}]^{+} 0 

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

[PX_{6}]^{+} 0 

[PLX_{6}]^{+} 0 
X+2Z = 7  
[PX_{5}Z]^{+} 0 

[PX_{7}]^{+} 0 

X+2Z = 8  [PX_{4}Z_{2}]^{+} 0 

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

[PX_{8}]^{+} 0 
X+2Z = 9  
[PX_{5}Z_{2}]^{+} 0 

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

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

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

[PX_{8}Z]^{+} 0 
X+2Z = 11  
[PX_{5}Z_{3}]^{+} 0 

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

X+2Z = 12  [PX_{4}Z_{4}]^{+} 0 

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

[PX_{8}Z_{2}]^{+} 0 
MLXZ^{q±} grid for phosphorus (P) for Q = 2: [PX_{x}L_{l}Z_{z}]^{2+}
The number of compounds found is 0.
MLXZ^{q±} grid for phosphorus (P) for Q = 3: [PX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for phosphorus (P) for Q = 4: [PX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for sulfur (S) for Q = 6: [SX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for sulfur (S) for Q = 5: [SX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for sulfur (S) for Q = 4: [SX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for sulfur (S) for Q = 3: [SX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for sulfur (S) for Q = 2: [SX_{x}L_{l}Z_{z}]^{2}
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]^{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 sulfur with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12 

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

[SL]^{2} 0 

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

[SLX]^{2} 0 

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

[SX_{2}]^{2} 0 

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

[SX_{3}]^{2} 0 

X+2Z = 4  [SZ_{2}]^{2} 13% 

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

[SX_{4}]^{2} 0 
X+2Z = 5  
[SXZ_{2}]^{2} 0 

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

X+2Z = 6  [SZ_{3}]^{2} 83% 

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

[SX_{4}Z]^{2} 0 
X+2Z = 7  
[SXZ_{3}]^{2} 0 

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

X+2Z = 8  [SZ_{4}]^{2} 4% 

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

[SX_{4}Z_{2}]^{2} 0 
X+2Z = 9  
[SXZ_{4}]^{2} 0 

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

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

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

[SX_{4}Z_{3}]^{2} 0 
X+2Z = 11  
[SXZ_{5}]^{2} 0 

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

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

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

[SX_{4}Z_{4}]^{2} 0 
MLXZ^{q±} grid for sulfur (S) for Q = 1: [SX_{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 sulfur with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12 

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

[SL_{2}]^{} 0 

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

[SLX]^{} 0 

[SL_{2}X]^{} 0 
X+2Z = 2  
[SX_{2}]^{} 0 

[SLX_{2}]^{} 0 

X+2Z = 3  [SXZ]^{} 50% 

[SX_{3}]^{} 0 

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

[SX_{4}]^{} 0 

X+2Z = 5  [SXZ_{2}]^{} 50% 

[SX_{3}Z]^{} 0 

[SX_{5}]^{} 0 
X+2Z = 6  
[SX_{2}Z_{2}]^{} 0 

[SX_{4}Z]^{} 0 

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

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

[SX_{5}Z]^{} 0 
X+2Z = 8  
[SX_{2}Z_{3}]^{} 0 

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

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

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

[SX_{5}Z_{2}]^{} 0 
X+2Z = 10  
[SX_{2}Z_{4}]^{} 0 

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

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

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

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

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

MLXZ^{q±} grid for sulfur (S) for Q = 0: [SX_{x}L_{l}Z_{z}]^{}
The number of compounds found is 2330.
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 sulfur with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12 

X+2Z = 0  [SL] 0 

[SL_{2}] 0 

[SL_{3}] 0 
X+2Z = 1  
[SLX] 0 

[SL_{2}X] 0 

X+2Z = 2  [SX_{2}] 48% 

[SLX_{2}] 0 

[SL_{2}X_{2}] 0 
X+2Z = 3  
[SX_{3}] 0 

[SLX_{3}] 0 

X+2Z = 4  [SX_{2}Z] 42% 

[SX_{4}] 0.2% 

[SLX_{4}] 0 
X+2Z = 5  
[SX_{3}Z] 0 

[SX_{5}] 0 

X+2Z = 6  [SX_{2}Z_{2}] 9% 

[SX_{4}Z] 0.04% 

[SX_{6}] 0.3% 
X+2Z = 7  
[SX_{3}Z_{2}] 0 

[SX_{5}Z] 0 

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

[SX_{4}Z_{2}] 0 

[SX_{6}Z] 0 
X+2Z = 9  
[SX_{3}Z_{3}] 0 

[SX_{5}Z_{2}] 0 

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

[SX_{4}Z_{3}] 0 

[SX_{6}Z_{2}] 0 
X+2Z = 11  
[SX_{3}Z_{4}] 0 

[SX_{5}Z_{3}] 0 

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

[SX_{4}Z_{4}] 0 

[SX_{6}Z_{3}] 0 
MLXZ^{q±} grid for sulfur (S) for Q = 1: [SX_{x}L_{l}Z_{z}]^{+}
The number of compounds found is 42.
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 sulfur with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12 

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

[SL_{3}]^{+} 0 

X+2Z = 1  [SLX]^{+} 10% 

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

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

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

X+2Z = 3  [SX_{3}]^{+} 67% 

[SLX_{3}]^{+} 0 

[SL_{2}X_{3}]^{+} 0 
X+2Z = 4  
[SX_{4}]^{+} 0 

[SLX_{4}]^{+} 0 

X+2Z = 5  [SX_{3}Z]^{+} 24% 

[SX_{5}]^{+} 0 

[SLX_{5}]^{+} 0 
X+2Z = 6  
[SX_{4}Z]^{+} 0 

[SX_{6}]^{+} 0 

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

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

[SX_{7}]^{+} 0 
X+2Z = 8  
[SX_{4}Z_{2}]^{+} 0 

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

X+2Z = 9  [SX_{3}Z_{3}]^{+} 0 

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

[SX_{7}Z]^{+} 0 
X+2Z = 10  
[SX_{4}Z_{3}]^{+} 0 

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

X+2Z = 11  [SX_{3}Z_{4}]^{+} 0 

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

[SX_{7}Z_{2}]^{+} 0 
X+2Z = 12  
[SX_{4}Z_{4}]^{+} 0 

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

MLXZ^{q±} grid for sulfur (S) for Q = 2: [SX_{x}L_{l}Z_{z}]^{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]^{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 sulfur with that [MLXZ]^{q±} classification.
EN➝  8  9  10  11  12 

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

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

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

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

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

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

[SL_{3}X_{2}]^{2+} 0 
X+2Z = 3  
[SLX_{3}]^{2+} 0 

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

X+2Z = 4  [SX_{4}]^{2+} 100% 

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

[SL_{2}X_{4}]^{2+} 0 
X+2Z = 5  
[SX_{5}]^{2+} 0 

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

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

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

[SLX_{6}]^{2+} 0 
X+2Z = 7  
[SX_{5}Z]^{2+} 0 

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

X+2Z = 8  [SX_{4}Z_{2}]^{2+} 0 

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

[SX_{8}]^{2+} 0 
X+2Z = 9  
[SX_{5}Z_{2}]^{2+} 0 

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

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

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

[SX_{8}Z]^{2+} 0 
X+2Z = 11  
[SX_{5}Z_{3}]^{2+} 0 

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

X+2Z = 12  [SX_{4}Z_{4}]^{2+} 0 

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

[SX_{8}Z_{2}]^{2+} 0 
MLXZ^{q±} grid for sulfur (S) for Q = 3: [SX_{x}L_{l}Z_{z}]^{3+}
The number of compounds found is 0.
MLXZ^{q±} grid for sulfur (S) for Q = 4: [SX_{x}L_{l}Z_{z}]^{4+}
The number of compounds found is 0.
MLXZ^{q±} grid for chlorine (Cl) for Q = 6: [ClX_{x}L_{l}Z_{z}]^{6}
The number of compounds found is 0.
MLXZ^{q±} grid for chlorine (Cl) for Q = 5: [ClX_{x}L_{l}Z_{z}]^{5}
The number of compounds found is 0.
MLXZ^{q±} grid for chlorine (Cl) for Q = 4: [ClX_{x}L_{l}Z_{z}]^{4}
The number of compounds found is 0.
MLXZ^{q±} grid for chlorine (Cl) for Q = 3: [ClX_{x}L_{l}Z_{z}]^{3}
The number of compounds found is 0.
MLXZ^{q±} grid for chlorine (Cl) for Q = 2: [ClX_{x}L_{l}Z_{z}]^{2}
The number of compounds found is 0.
MLXZ^{q±} grid for chlorine (Cl) for Q = 1: [ClX_{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 chlorine with that [MLXZ]^{q±} classification.
EN➝  7  8  9  10  11  12 

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

[ClL]^{} 0 

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

[ClX]^{} 0 

[ClLX]^{} 0 

X+2Z = 2  
[ClZ]^{} 92% 

[ClX_{2}]^{} 0 

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

[ClXZ]^{} 0 

[ClX_{3}]^{} 0 

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

[ClX_{2}Z]^{} 0 

[ClX_{4}]^{} 4% 
X+2Z = 5  [ClZ_{3}]^{} 0 

[ClXZ_{2}]^{} 0 

[ClX_{3}Z]^{} 0 

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

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

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

[ClXZ_{3}]^{} 0 

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

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

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

[ClX_{4}Z_{2}]^{} 0 
X+2Z = 9  [ClZ_{5}]^{} 0 

[ClXZ_{4}]^{} 0 

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

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

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

[ClX_{4}Z_{3}]^{} 0 
X+2Z = 11  [ClZ_{6}]^{} 0 

[ClXZ_{5}]^{} 0 

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

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

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

[ClX_{4}Z_{4}]^{} 0 
MLXZ^{q±} grid for chlorine (Cl) for Q = 0: [ClX_{x}L_{l}Z_{z}]^{}
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]^{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 chlorine with that [MLXZ]^{q±} classification.
EN➝  7  8  9  10  11  12 

X+2Z = 0  [Cl] 0 

[ClL] 0 

[ClL_{2}] 0 

X+2Z = 1  
[ClX] 89% 

[ClLX] 0 

[ClL_{2}X] 0 
X+2Z = 2  [ClZ] 0 

[ClX_{2}] 0 

[ClLX_{2}] 0 

X+2Z = 3  
[ClXZ] 10% 

[ClX_{3}] 0.02% 

[ClLX_{3}] 0 
X+2Z = 4  [ClZ_{2}] 0.02% 

[ClX_{2}Z] 0 

[ClX_{4}] 0 

X+2Z = 5  
[ClXZ_{2}] 1% 

[ClX_{3}Z] 0 

[ClX_{5}] 0 
X+2Z = 6  [ClZ_{3}] 0 

[ClX_{2}Z_{2}] 0 

[ClX_{4}Z] 0 

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

[ClX_{3}Z_{2}] 0 

[ClX_{5}Z] 0 
X+2Z = 8  [ClZ_{4}] 0 

[ClX_{2}Z_{3}] 0 

[ClX_{4}Z_{2}] 0 

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

[ClX_{3}Z_{3}] 0 

[ClX_{5}Z_{2}] 0 
X+2Z = 10  [ClZ_{5}] 0 

[ClX_{2}Z_{4}] 0 

[ClX_{4}Z_{3}] 0 

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

[ClX_{3}Z_{4}] 0 

[ClX_{5}Z_{3}] 0 
X+2Z = 12  [ClZ_{6}] 0 

[ClX_{2}Z_{5}] 0 

[ClX_{4}Z_{4}] 0 

MLXZ^{q±} grid for chlorine (Cl) for Q = 1: [ClX_{x}L_{l}Z_{z}]^{+}
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]^{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 chlorine with that [MLXZ]^{q±} classification.
EN➝  7  8  9  10  11  12 

X+2Z = 0  
[ClL]^{+} 50% 

[ClL_{2}]^{+} 0 

[ClL_{3}]^{+} 0 
X+2Z = 1  [ClX]^{+} 0 

[ClLX]^{+} 0 

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

X+2Z = 2  
[ClX_{2}]^{+} 17% 

[ClLX_{2}]^{+} 0 

[ClL_{2}X_{2}]^{+} 0 
X+2Z = 3  [ClXZ]^{+} 0 

[ClX_{3}]^{+} 0 

[ClLX_{3}]^{+} 0 

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

[ClX_{4}]^{+} 25% 

[ClLX_{4}]^{+} 0 
X+2Z = 5  [ClXZ_{2}]^{+} 0 

[ClX_{3}Z]^{+} 0 

[ClX_{5}]^{+} 0 

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

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

[ClX_{6}]^{+} 8% 
X+2Z = 7  [ClXZ_{3}]^{+} 0 

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

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

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

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

[ClX_{6}Z]^{+} 0 
X+2Z = 9  [ClXZ_{4}]^{+} 0 

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

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

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

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

[ClX_{6}Z_{2}]^{+} 0 
X+2Z = 11  [ClXZ_{5}]^{+} 0 

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

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

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

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

[ClX_{6}Z_{3}]^{+} 0 
MLXZ^{q±} grid for chlorine (Cl) for Q = 2: [ClX_{x}L_{l}Z_{z}]^{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]^{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 chlorine with that [MLXZ]^{q±} classification.
EN➝  7  8  9  10  11  12 

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

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

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

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

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

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

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

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

X+2Z = 3  
[ClX_{3}]^{2+} 100% 

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

[ClL_{2}X_{3}]^{2+} 0 
X+2Z = 4  [ClX_{2}Z]^{2+} 0 

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

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

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

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

[ClLX_{5}]^{2+} 0 
X+2Z = 6  [ClX_{2}Z_{2}]^{2+} 0 

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

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

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

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

[ClX_{7}]^{2+} 0 
X+2Z = 8  [ClX_{2}Z_{3}]^{2+} 0 

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

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

X+2Z = 9  
[ClX_{3}Z_{3}]^{2+} 0 

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

[ClX_{7}Z]^{2+} 0 
X+2Z = 10  [ClX_{2}Z_{4}]^{2+} 0 

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

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

X+2Z = 11  
[ClX_{3}Z_{4}]^{2+} 0 

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

[ClX_{7}Z_{2}]^{2+} 0 
X+2Z = 12  [ClX_{2}Z_{5}]^{2+} 0 

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

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

MLXZ^{q±} grid for chlorine (Cl) for Q = 3: [ClX_{x}L_{l}Z_{z}]^{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]^{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 chlorine with that [MLXZ]^{q±} classification.
EN➝  7  8  9  10  11  12 

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

[ClL_{3}]^{3+} 0 

[ClL_{4}]^{3+} 0 
X+2Z = 1  [ClLX]^{3+} 0 

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

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

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

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

[ClL_{3}X_{2}]^{3+} 0 
X+2Z = 3  [ClX_{3}]^{3+} 0 

[ClLX_{3}]^{3+} 0 

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

X+2Z = 4  
[ClX_{4}]^{3+} 100% 

[ClLX_{4}]^{3+} 0 

[ClL_{2}X_{4}]^{3+} 0 
X+2Z = 5  [ClX_{3}Z]^{3+} 0 

[ClX_{5}]^{3+} 0 

[ClLX_{5}]^{3+} 0 

X+2Z = 6  
[ClX_{4}Z]^{3+} 0 

[ClX_{6}]^{3+} 0 

[ClLX_{6}]^{3+} 0 
X+2Z = 7  [ClX_{3}Z_{2}]^{3+} 0 

[ClX_{5}Z]^{3+} 0 

[ClX_{7}]^{3+} 0 

X+2Z = 8  
[ClX_{4}Z_{2}]^{3+} 0 

[ClX_{6}Z]^{3+} 0 

[ClX_{8}]^{3+} 0 
X+2Z = 9  [ClX_{3}Z_{3}]^{3+} 0 

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

[ClX_{7}Z]^{3+} 0 

X+2Z = 10  
[ClX_{4}Z_{3}]^{3+} 0 

[ClX_{6}Z_{2}]^{3+} 0 

[ClX_{8}Z]^{3+} 0 
X+2Z = 11  [ClX_{3}Z_{4}]^{3+} 0 

[ClX_{5}Z_{3}]^{3+} 0 

[ClX_{7}Z_{2}]^{3+} 0 

X+2Z = 12  
[ClX_{4}Z_{4}]^{3+} 0 

[ClX_{6}Z_{3}]^{3+} 0 

[ClX_{8}Z_{2}]^{3+} 0 
MLXZ^{q±} grid for chlorine (Cl) for Q = 4: [ClX_{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.