MLXZq± grid for hydrogen (H) for Q = -6: [HXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for hydrogen (H) for Q = -5: [HXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for hydrogen (H) for Q = -4: [HXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for hydrogen (H) for Q = -3: [HXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for hydrogen (H) for Q = -2: [HXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for hydrogen (H) for Q = -1: [HXxLlZz]-
The number of compounds found is 13.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 | [HZ2]- 0 |
X+2Z = 5 | |
X+2Z = 6 | [HZ3]- 0 |
X+2Z = 7 | |
X+2Z = 8 | [HZ4]- 0 |
X+2Z = 9 | |
X+2Z = 10 | [HZ5]- 0 |
X+2Z = 11 | |
X+2Z = 12 | [HZ6]- 0 |
MLXZq± grid for hydrogen (H) for Q = 0: [HXxLlZz]
The number of compounds found is 3940.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 | [HXZ2] 0 |
X+2Z = 6 | |
X+2Z = 7 | [HXZ3] 0 |
X+2Z = 8 | |
X+2Z = 9 | [HXZ4] 0 |
X+2Z = 10 | |
X+2Z = 11 | [HXZ5] 0 |
X+2Z = 12 | |
MLXZq± grid for hydrogen (H) for Q = 1: [HXxLlZz]+
The number of compounds found is 28.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 | [HX2]+ 0 |
X+2Z = 3 | |
X+2Z = 4 | [HX2Z]+ 0 |
X+2Z = 5 | |
X+2Z = 6 | [HX2Z2]+ 0 |
X+2Z = 7 | |
X+2Z = 8 | [HX2Z3]+ 0 |
X+2Z = 9 | |
X+2Z = 10 | [HX2Z4]+ 0 |
X+2Z = 11 | |
X+2Z = 12 | [HX2Z5]+ 0 |
MLXZq± grid for hydrogen (H) for Q = 2: [HXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for hydrogen (H) for Q = 3: [HXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for hydrogen (H) for Q = 4: [HXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for lithium (Li) for Q = -6: [LiXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for lithium (Li) for Q = -5: [LiXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for lithium (Li) for Q = -4: [LiXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for lithium (Li) for Q = -3: [LiXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for lithium (Li) for Q = -2: [LiXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for lithium (Li) for Q = -1: [LiXxLlZz]-
The number of compounds found is 4.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 |
|
[LiL2]- 0 |
|
[LiL3]- 0 |
|
[LiL4]- 0 |
|
[LiL5]- 0 |
|
[LiL6]- 0 |
|
[LiL7]- 0 |
X+2Z = 1 | |
[LiLX]- 0 |
|
[LiL2X]- 0 |
|
[LiL3X]- 0 |
|
[LiL4X]- 0 |
|
[LiL5X]- 0 |
|
[LiL6X]- 0 |
|
X+2Z = 2 | [LiX2]- 25% |
|
[LiLX2]- 0 |
|
[LiL2X2]- 50% |
|
[LiL3X2]- 0 |
|
[LiL4X2]- 25% |
|
[LiL5X2]- 0 |
|
[LiL6X2]- 0 |
X+2Z = 3 | |
[LiX3]- 0 |
|
[LiLX3]- 0 |
|
[LiL2X3]- 0 |
|
[LiL3X3]- 0 |
|
[LiL4X3]- 0 |
|
[LiL5X3]- 0 |
|
X+2Z = 4 | [LiX2Z]- 0 |
|
[LiX4]- 0 |
|
[LiLX4]- 0 |
|
[LiL2X4]- 0 |
|
[LiL3X4]- 0 |
|
[LiL4X4]- 0 |
|
[LiL5X4]- 0 |
X+2Z = 5 | |
[LiX3Z]- 0 |
|
[LiX5]- 0 |
|
[LiLX5]- 0 |
|
[LiL2X5]- 0 |
|
[LiL3X5]- 0 |
|
[LiL4X5]- 0 |
|
X+2Z = 6 | [LiX2Z2]- 0 |
|
[LiX4Z]- 0 |
|
[LiX6]- 0 |
|
[LiLX6]- 0 |
|
[LiL2X6]- 0 |
|
[LiL3X6]- 0 |
|
[LiL4X6]- 0 |
X+2Z = 7 | |
[LiX3Z2]- 0 |
|
[LiX5Z]- 0 |
|
[LiX7]- 0 |
|
[LiLX7]- 0 |
|
[LiL2X7]- 0 |
|
[LiL3X7]- 0 |
|
X+2Z = 8 | [LiX2Z3]- 0 |
|
[LiX4Z2]- 0 |
|
[LiX6Z]- 0 |
|
[LiX8]- 0 |
|
[LiLX8]- 0 |
|
[LiL2X8]- 0 |
|
[LiL3X8]- 0 |
X+2Z = 9 | |
[LiX3Z3]- 0 |
|
[LiX5Z2]- 0 |
|
[LiX7Z]- 0 |
|
[LiX9]- 0 |
|
[LiLX9]- 0 |
|
[LiL2X9]- 0 |
|
X+2Z = 10 | [LiX2Z4]- 0 |
|
[LiX4Z3]- 0 |
|
[LiX6Z2]- 0 |
|
[LiX8Z]- 0 |
|
[LiX10]- 0 |
|
[LiLX10]- 0 |
|
[LiL2X10]- 0 |
X+2Z = 11 | |
[LiX3Z4]- 0 |
|
[LiX5Z3]- 0 |
|
[LiX7Z2]- 0 |
|
[LiX9Z]- 0 |
|
[LiX11]- 0 |
|
[LiLX11]- 0 |
|
X+2Z = 12 | [LiX2Z5]- 0 |
|
[LiX4Z4]- 0 |
|
[LiX6Z3]- 0 |
|
[LiX8Z2]- 0 |
|
[LiX10Z]- 0 |
|
[LiX12]- 0 |
|
[LiLX12]- 0 |
MLXZq± grid for lithium (Li) for Q = 0: [LiXxLlZz]
The number of compounds found is 109.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 | |
[LiL2] 0 |
|
[LiL3] 0 |
|
[LiL4] 0 |
|
[LiL5] 0 |
|
[LiL6] 0 |
|
[LiL7] 0 |
|
X+2Z = 1 | [LiLX] 3% |
|
[LiL2X] 15% |
|
[LiL3X] 56% |
|
[LiL4X] 25% |
|
[LiL5X] 1% |
|
[LiL6X] 1% |
|
[LiL7X] 0 |
X+2Z = 2 | |
[LiLX2] 0 |
|
[LiL2X2] 0 |
|
[LiL3X2] 0 |
|
[LiL4X2] 0 |
|
[LiL5X2] 0 |
|
[LiL6X2] 0 |
|
X+2Z = 3 | [LiX3] 0 |
|
[LiLX3] 0 |
|
[LiL2X3] 0 |
|
[LiL3X3] 0 |
|
[LiL4X3] 0 |
|
[LiL5X3] 0 |
|
[LiL6X3] 0 |
X+2Z = 4 | |
[LiX4] 0 |
|
[LiLX4] 0 |
|
[LiL2X4] 0 |
|
[LiL3X4] 0 |
|
[LiL4X4] 0 |
|
[LiL5X4] 0 |
|
X+2Z = 5 | [LiX3Z] 0 |
|
[LiX5] 0 |
|
[LiLX5] 0 |
|
[LiL2X5] 0 |
|
[LiL3X5] 0 |
|
[LiL4X5] 0 |
|
[LiL5X5] 0 |
X+2Z = 6 | |
[LiX4Z] 0 |
|
[LiX6] 0 |
|
[LiLX6] 0 |
|
[LiL2X6] 0 |
|
[LiL3X6] 0 |
|
[LiL4X6] 0 |
|
X+2Z = 7 | [LiX3Z2] 0 |
|
[LiX5Z] 0 |
|
[LiX7] 0 |
|
[LiLX7] 0 |
|
[LiL2X7] 0 |
|
[LiL3X7] 0 |
|
[LiL4X7] 0 |
X+2Z = 8 | |
[LiX4Z2] 0 |
|
[LiX6Z] 0 |
|
[LiX8] 0 |
|
[LiLX8] 0 |
|
[LiL2X8] 0 |
|
[LiL3X8] 0 |
|
X+2Z = 9 | [LiX3Z3] 0 |
|
[LiX5Z2] 0 |
|
[LiX7Z] 0 |
|
[LiX9] 0 |
|
[LiLX9] 0 |
|
[LiL2X9] 0 |
|
[LiL3X9] 0 |
X+2Z = 10 | |
[LiX4Z3] 0 |
|
[LiX6Z2] 0 |
|
[LiX8Z] 0 |
|
[LiX10] 0 |
|
[LiLX10] 0 |
|
[LiL2X10] 0 |
|
X+2Z = 11 | [LiX3Z4] 0 |
|
[LiX5Z3] 0 |
|
[LiX7Z2] 0 |
|
[LiX9Z] 0 |
|
[LiX11] 0 |
|
[LiLX11] 0 |
|
[LiL2X11] 0 |
X+2Z = 12 | |
[LiX4Z4] 0 |
|
[LiX6Z3] 0 |
|
[LiX8Z2] 0 |
|
[LiX10Z] 0 |
|
[LiX12] 0 |
|
[LiLX12] 0 |
|
MLXZq± grid for lithium (Li) for Q = 1: [LiXxLlZz]+
The number of compounds found is 39.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 | [LiL2]+ 0 |
|
[LiL3]+ 0 |
|
[LiL4]+ 69% |
|
[LiL5]+ 13% |
|
[LiL6]+ 15% |
|
[LiL7]+ 0 |
|
[LiL8]+ 3% |
X+2Z = 1 | |
[LiL2X]+ 0 |
|
[LiL3X]+ 0 |
|
[LiL4X]+ 0 |
|
[LiL5X]+ 0 |
|
[LiL6X]+ 0 |
|
[LiL7X]+ 0 |
|
X+2Z = 2 | [LiLX2]+ 0 |
|
[LiL2X2]+ 0 |
|
[LiL3X2]+ 0 |
|
[LiL4X2]+ 0 |
|
[LiL5X2]+ 0 |
|
[LiL6X2]+ 0 |
|
[LiL7X2]+ 0 |
X+2Z = 3 | |
[LiLX3]+ 0 |
|
[LiL2X3]+ 0 |
|
[LiL3X3]+ 0 |
|
[LiL4X3]+ 0 |
|
[LiL5X3]+ 0 |
|
[LiL6X3]+ 0 |
|
X+2Z = 4 | [LiX4]+ 0 |
|
[LiLX4]+ 0 |
|
[LiL2X4]+ 0 |
|
[LiL3X4]+ 0 |
|
[LiL4X4]+ 0 |
|
[LiL5X4]+ 0 |
|
[LiL6X4]+ 0 |
X+2Z = 5 | |
[LiX5]+ 0 |
|
[LiLX5]+ 0 |
|
[LiL2X5]+ 0 |
|
[LiL3X5]+ 0 |
|
[LiL4X5]+ 0 |
|
[LiL5X5]+ 0 |
|
X+2Z = 6 | [LiX4Z]+ 0 |
|
[LiX6]+ 0 |
|
[LiLX6]+ 0 |
|
[LiL2X6]+ 0 |
|
[LiL3X6]+ 0 |
|
[LiL4X6]+ 0 |
|
[LiL5X6]+ 0 |
X+2Z = 7 | |
[LiX5Z]+ 0 |
|
[LiX7]+ 0 |
|
[LiLX7]+ 0 |
|
[LiL2X7]+ 0 |
|
[LiL3X7]+ 0 |
|
[LiL4X7]+ 0 |
|
X+2Z = 8 | [LiX4Z2]+ 0 |
|
[LiX6Z]+ 0 |
|
[LiX8]+ 0 |
|
[LiLX8]+ 0 |
|
[LiL2X8]+ 0 |
|
[LiL3X8]+ 0 |
|
[LiL4X8]+ 0 |
X+2Z = 9 | |
[LiX5Z2]+ 0 |
|
[LiX7Z]+ 0 |
|
[LiX9]+ 0 |
|
[LiLX9]+ 0 |
|
[LiL2X9]+ 0 |
|
[LiL3X9]+ 0 |
|
X+2Z = 10 | [LiX4Z3]+ 0 |
|
[LiX6Z2]+ 0 |
|
[LiX8Z]+ 0 |
|
[LiX10]+ 0 |
|
[LiLX10]+ 0 |
|
[LiL2X10]+ 0 |
|
[LiL3X10]+ 0 |
X+2Z = 11 | |
[LiX5Z3]+ 0 |
|
[LiX7Z2]+ 0 |
|
[LiX9Z]+ 0 |
|
[LiX11]+ 0 |
|
[LiLX11]+ 0 |
|
[LiL2X11]+ 0 |
|
X+2Z = 12 | [LiX4Z4]+ 0 |
|
[LiX6Z3]+ 0 |
|
[LiX8Z2]+ 0 |
|
[LiX10Z]+ 0 |
|
[LiX12]+ 0 |
|
[LiLX12]+ 0 |
|
[LiL2X12]+ 0 |
MLXZq± grid for lithium (Li) for Q = 2: [LiXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for lithium (Li) for Q = 3: [LiXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for lithium (Li) for Q = 4: [LiXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for sodium (Na) for Q = -6: [NaXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for sodium (Na) for Q = -5: [NaXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for sodium (Na) for Q = -4: [NaXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for sodium (Na) for Q = -3: [NaXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for sodium (Na) for Q = -2: [NaXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for sodium (Na) for Q = -1: [NaXxLlZz]-
The number of compounds found is 1.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 |
|
[NaL2]- 0 |
|
[NaL3]- 0 |
|
[NaL4]- 0 |
|
[NaL5]- 0 |
|
[NaL6]- 0 |
|
[NaL7]- 0 |
X+2Z = 1 | |
[NaX]- 0 |
|
[NaLX]- 0 |
|
[NaL2X]- 0 |
|
[NaL3X]- 0 |
|
[NaL4X]- 0 |
|
[NaL5X]- 0 |
|
[NaL6X]- 0 |
|
X+2Z = 2 | [NaZ]- 0 |
|
[NaX2]- 0 |
|
[NaLX2]- 0 |
|
[NaL2X2]- 0 |
|
[NaL3X2]- 0 |
|
[NaL4X2]- 100% |
|
[NaL5X2]- 0 |
|
[NaL6X2]- 0 |
X+2Z = 3 | |
[NaXZ]- 0 |
|
[NaX3]- 0 |
|
[NaLX3]- 0 |
|
[NaL2X3]- 0 |
|
[NaL3X3]- 0 |
|
[NaL4X3]- 0 |
|
[NaL5X3]- 0 |
|
X+2Z = 4 | [NaZ2]- 0 |
|
[NaX2Z]- 0 |
|
[NaX4]- 0 |
|
[NaLX4]- 0 |
|
[NaL2X4]- 0 |
|
[NaL3X4]- 0 |
|
[NaL4X4]- 0 |
|
[NaL5X4]- 0 |
X+2Z = 5 | |
[NaXZ2]- 0 |
|
[NaX3Z]- 0 |
|
[NaX5]- 0 |
|
[NaLX5]- 0 |
|
[NaL2X5]- 0 |
|
[NaL3X5]- 0 |
|
[NaL4X5]- 0 |
|
X+2Z = 6 | [NaZ3]- 0 |
|
[NaX2Z2]- 0 |
|
[NaX4Z]- 0 |
|
[NaX6]- 0 |
|
[NaLX6]- 0 |
|
[NaL2X6]- 0 |
|
[NaL3X6]- 0 |
|
[NaL4X6]- 0 |
X+2Z = 7 | |
[NaXZ3]- 0 |
|
[NaX3Z2]- 0 |
|
[NaX5Z]- 0 |
|
[NaX7]- 0 |
|
[NaLX7]- 0 |
|
[NaL2X7]- 0 |
|
[NaL3X7]- 0 |
|
X+2Z = 8 | [NaZ4]- 0 |
|
[NaX2Z3]- 0 |
|
[NaX4Z2]- 0 |
|
[NaX6Z]- 0 |
|
[NaX8]- 0 |
|
[NaLX8]- 0 |
|
[NaL2X8]- 0 |
|
[NaL3X8]- 0 |
X+2Z = 9 | |
[NaXZ4]- 0 |
|
[NaX3Z3]- 0 |
|
[NaX5Z2]- 0 |
|
[NaX7Z]- 0 |
|
[NaX9]- 0 |
|
[NaLX9]- 0 |
|
[NaL2X9]- 0 |
|
X+2Z = 10 | [NaZ5]- 0 |
|
[NaX2Z4]- 0 |
|
[NaX4Z3]- 0 |
|
[NaX6Z2]- 0 |
|
[NaX8Z]- 0 |
|
[NaX10]- 0 |
|
[NaLX10]- 0 |
|
[NaL2X10]- 0 |
X+2Z = 11 | |
[NaXZ5]- 0 |
|
[NaX3Z4]- 0 |
|
[NaX5Z3]- 0 |
|
[NaX7Z2]- 0 |
|
[NaX9Z]- 0 |
|
[NaX11]- 0 |
|
[NaLX11]- 0 |
|
X+2Z = 12 | [NaZ6]- 0 |
|
[NaX2Z5]- 0 |
|
[NaX4Z4]- 0 |
|
[NaX6Z3]- 0 |
|
[NaX8Z2]- 0 |
|
[NaX10Z]- 0 |
|
[NaX12]- 0 |
|
[NaLX12]- 0 |
MLXZq± grid for sodium (Na) for Q = 0: [NaXxLlZz]
The number of compounds found is 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 |
|
[NaL2] 0 |
|
[NaL3] 0 |
|
[NaL4] 0 |
|
[NaL5] 0 |
|
[NaL6] 0 |
|
[NaL7] 0 |
|
X+2Z = 1 | [NaX] 3% |
|
[NaLX] 2% |
|
[NaL2X] 10% |
|
[NaL3X] 8% |
|
[NaL4X] 18% |
|
[NaL5X] 33% |
|
[NaL6X] 18% |
|
[NaL7X] 8% |
X+2Z = 2 | |
[NaX2] 0 |
|
[NaLX2] 0 |
|
[NaL2X2] 0 |
|
[NaL3X2] 0 |
|
[NaL4X2] 0 |
|
[NaL5X2] 0 |
|
[NaL6X2] 0 |
|
X+2Z = 3 | [NaXZ] 0 |
|
[NaX3] 0 |
|
[NaLX3] 0 |
|
[NaL2X3] 0 |
|
[NaL3X3] 0 |
|
[NaL4X3] 0 |
|
[NaL5X3] 0 |
|
[NaL6X3] 0 |
X+2Z = 4 | |
[NaX2Z] 0 |
|
[NaX4] 0 |
|
[NaLX4] 0 |
|
[NaL2X4] 0 |
|
[NaL3X4] 0 |
|
[NaL4X4] 0 |
|
[NaL5X4] 0 |
|
X+2Z = 5 | [NaXZ2] 0 |
|
[NaX3Z] 0 |
|
[NaX5] 0 |
|
[NaLX5] 0 |
|
[NaL2X5] 0 |
|
[NaL3X5] 0 |
|
[NaL4X5] 0 |
|
[NaL5X5] 0 |
X+2Z = 6 | |
[NaX2Z2] 0 |
|
[NaX4Z] 0 |
|
[NaX6] 0 |
|
[NaLX6] 0 |
|
[NaL2X6] 0 |
|
[NaL3X6] 0 |
|
[NaL4X6] 0 |
|
X+2Z = 7 | [NaXZ3] 0 |
|
[NaX3Z2] 0 |
|
[NaX5Z] 0 |
|
[NaX7] 0 |
|
[NaLX7] 0 |
|
[NaL2X7] 0 |
|
[NaL3X7] 0 |
|
[NaL4X7] 0 |
X+2Z = 8 | |
[NaX2Z3] 0 |
|
[NaX4Z2] 0 |
|
[NaX6Z] 0 |
|
[NaX8] 0 |
|
[NaLX8] 0 |
|
[NaL2X8] 0 |
|
[NaL3X8] 0 |
|
X+2Z = 9 | [NaXZ4] 0 |
|
[NaX3Z3] 0 |
|
[NaX5Z2] 0 |
|
[NaX7Z] 0 |
|
[NaX9] 0 |
|
[NaLX9] 0 |
|
[NaL2X9] 0 |
|
[NaL3X9] 0 |
X+2Z = 10 | |
[NaX2Z4] 0 |
|
[NaX4Z3] 0 |
|
[NaX6Z2] 0 |
|
[NaX8Z] 0 |
|
[NaX10] 0 |
|
[NaLX10] 0 |
|
[NaL2X10] 0 |
|
X+2Z = 11 | [NaXZ5] 0 |
|
[NaX3Z4] 0 |
|
[NaX5Z3] 0 |
|
[NaX7Z2] 0 |
|
[NaX9Z] 0 |
|
[NaX11] 0 |
|
[NaLX11] 0 |
|
[NaL2X11] 0 |
X+2Z = 12 | |
[NaX2Z5] 0 |
|
[NaX4Z4] 0 |
|
[NaX6Z3] 0 |
|
[NaX8Z2] 0 |
|
[NaX10Z] 0 |
|
[NaX12] 0 |
|
[NaLX12] 0 |
|
MLXZq± grid for sodium (Na) for Q = 1: [NaXxLlZz]+
The number of compounds found is 45.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 |
|
[NaL2]+ 0 |
|
[NaL3]+ 0 |
|
[NaL4]+ 11% |
|
[NaL5]+ 11% |
|
[NaL6]+ 42% |
|
[NaL7]+ 9% |
|
[NaL8]+ 27% |
X+2Z = 1 | |
[NaLX]+ 0 |
|
[NaL2X]+ 0 |
|
[NaL3X]+ 0 |
|
[NaL4X]+ 0 |
|
[NaL5X]+ 0 |
|
[NaL6X]+ 0 |
|
[NaL7X]+ 0 |
|
X+2Z = 2 | [NaX2]+ 0 |
|
[NaLX2]+ 0 |
|
[NaL2X2]+ 0 |
|
[NaL3X2]+ 0 |
|
[NaL4X2]+ 0 |
|
[NaL5X2]+ 0 |
|
[NaL6X2]+ 0 |
|
[NaL7X2]+ 0 |
X+2Z = 3 | |
[NaX3]+ 0 |
|
[NaLX3]+ 0 |
|
[NaL2X3]+ 0 |
|
[NaL3X3]+ 0 |
|
[NaL4X3]+ 0 |
|
[NaL5X3]+ 0 |
|
[NaL6X3]+ 0 |
|
X+2Z = 4 | [NaX2Z]+ 0 |
|
[NaX4]+ 0 |
|
[NaLX4]+ 0 |
|
[NaL2X4]+ 0 |
|
[NaL3X4]+ 0 |
|
[NaL4X4]+ 0 |
|
[NaL5X4]+ 0 |
|
[NaL6X4]+ 0 |
X+2Z = 5 | |
[NaX3Z]+ 0 |
|
[NaX5]+ 0 |
|
[NaLX5]+ 0 |
|
[NaL2X5]+ 0 |
|
[NaL3X5]+ 0 |
|
[NaL4X5]+ 0 |
|
[NaL5X5]+ 0 |
|
X+2Z = 6 | [NaX2Z2]+ 0 |
|
[NaX4Z]+ 0 |
|
[NaX6]+ 0 |
|
[NaLX6]+ 0 |
|
[NaL2X6]+ 0 |
|
[NaL3X6]+ 0 |
|
[NaL4X6]+ 0 |
|
[NaL5X6]+ 0 |
X+2Z = 7 | |
[NaX3Z2]+ 0 |
|
[NaX5Z]+ 0 |
|
[NaX7]+ 0 |
|
[NaLX7]+ 0 |
|
[NaL2X7]+ 0 |
|
[NaL3X7]+ 0 |
|
[NaL4X7]+ 0 |
|
X+2Z = 8 | [NaX2Z3]+ 0 |
|
[NaX4Z2]+ 0 |
|
[NaX6Z]+ 0 |
|
[NaX8]+ 0 |
|
[NaLX8]+ 0 |
|
[NaL2X8]+ 0 |
|
[NaL3X8]+ 0 |
|
[NaL4X8]+ 0 |
X+2Z = 9 | |
[NaX3Z3]+ 0 |
|
[NaX5Z2]+ 0 |
|
[NaX7Z]+ 0 |
|
[NaX9]+ 0 |
|
[NaLX9]+ 0 |
|
[NaL2X9]+ 0 |
|
[NaL3X9]+ 0 |
|
X+2Z = 10 | [NaX2Z4]+ 0 |
|
[NaX4Z3]+ 0 |
|
[NaX6Z2]+ 0 |
|
[NaX8Z]+ 0 |
|
[NaX10]+ 0 |
|
[NaLX10]+ 0 |
|
[NaL2X10]+ 0 |
|
[NaL3X10]+ 0 |
X+2Z = 11 | |
[NaX3Z4]+ 0 |
|
[NaX5Z3]+ 0 |
|
[NaX7Z2]+ 0 |
|
[NaX9Z]+ 0 |
|
[NaX11]+ 0 |
|
[NaLX11]+ 0 |
|
[NaL2X11]+ 0 |
|
X+2Z = 12 | [NaX2Z5]+ 0 |
|
[NaX4Z4]+ 0 |
|
[NaX6Z3]+ 0 |
|
[NaX8Z2]+ 0 |
|
[NaX10Z]+ 0 |
|
[NaX12]+ 0 |
|
[NaLX12]+ 0 |
|
[NaL2X12]+ 0 |
MLXZq± grid for sodium (Na) for Q = 2: [NaXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for sodium (Na) for Q = 3: [NaXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for sodium (Na) for Q = 4: [NaXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for potassium (K) for Q = -6: [KXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for potassium (K) for Q = -5: [KXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for potassium (K) for Q = -4: [KXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for potassium (K) for Q = -3: [KXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for potassium (K) for Q = -2: [KXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for potassium (K) for Q = -1: [KXxLlZz]-
The number of compounds found is 0.
MLXZq± grid for potassium (K) for Q = 0: [KXxLlZz]
The number of compounds found is 66.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 potassium with that [MLXZ]q± classification.
EN➝ | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | |
[KL] 0 |
|
[KL2] 0 |
|
[KL3] 0 |
|
[KL4] 0 |
|
[KL5] 0 |
|
[KL6] 0 |
|
[KL7] 0 |
|
[KL8] 0 |
|
[KL9] 0 |
|
[KL10] 0 |
|
X+2Z = 1 | [KX] 2% |
|
[KLX] 0 |
|
[KL2X] 2% |
|
[KL3X] 8% |
|
[KL4X] 3% |
|
[KL5X] 11% |
|
[KL6X] 35% |
|
[KL7X] 30% |
|
[KL8X] 9% |
|
[KL9X] 2% |
|
[KL10X] 0 |
X+2Z = 2 | |
[KX2] 0 |
|
[KLX2] 0 |
|
[KL2X2] 0 |
|
[KL3X2] 0 |
|
[KL4X2] 0 |
|
[KL5X2] 0 |
|
[KL6X2] 0 |
|
[KL7X2] 0 |
|
[KL8X2] 0 |
|
[KL9X2] 0 |
|
X+2Z = 3 | [KXZ] 0 |
|
[KX3] 0 |
|
[KLX3] 0 |
|
[KL2X3] 0 |
|
[KL3X3] 0 |
|
[KL4X3] 0 |
|
[KL5X3] 0 |
|
[KL6X3] 0 |
|
[KL7X3] 0 |
|
[KL8X3] 0 |
|
[KL9X3] 0 |
X+2Z = 4 | |
[KX2Z] 0 |
|
[KX4] 0 |
|
[KLX4] 0 |
|
[KL2X4] 0 |
|
[KL3X4] 0 |
|
[KL4X4] 0 |
|
[KL5X4] 0 |
|
[KL6X4] 0 |
|
[KL7X4] 0 |
|
[KL8X4] 0 |
|
X+2Z = 5 | [KXZ2] 0 |
|
[KX3Z] 0 |
|
[KX5] 0 |
|
[KLX5] 0 |
|
[KL2X5] 0 |
|
[KL3X5] 0 |
|
[KL4X5] 0 |
|
[KL5X5] 0 |
|
[KL6X5] 0 |
|
[KL7X5] 0 |
|
[KL8X5] 0 |
X+2Z = 6 | |
[KX2Z2] 0 |
|
[KX4Z] 0 |
|
[KX6] 0 |
|
[KLX6] 0 |
|
[KL2X6] 0 |
|
[KL3X6] 0 |
|
[KL4X6] 0 |
|
[KL5X6] 0 |
|
[KL6X6] 0 |
|
[KL7X6] 0 |
|
X+2Z = 7 | [KXZ3] 0 |
|
[KX3Z2] 0 |
|
[KX5Z] 0 |
|
[KX7] 0 |
|
[KLX7] 0 |
|
[KL2X7] 0 |
|
[KL3X7] 0 |
|
[KL4X7] 0 |
|
[KL5X7] 0 |
|
[KL6X7] 0 |
|
[KL7X7] 0 |
X+2Z = 8 | |
[KX2Z3] 0 |
|
[KX4Z2] 0 |
|
[KX6Z] 0 |
|
[KX8] 0 |
|
[KLX8] 0 |
|
[KL2X8] 0 |
|
[KL3X8] 0 |
|
[KL4X8] 0 |
|
[KL5X8] 0 |
|
[KL6X8] 0 |
|
X+2Z = 9 | [KXZ4] 0 |
|
[KX3Z3] 0 |
|
[KX5Z2] 0 |
|
[KX7Z] 0 |
|
[KX9] 0 |
|
[KLX9] 0 |
|
[KL2X9] 0 |
|
[KL3X9] 0 |
|
[KL4X9] 0 |
|
[KL5X9] 0 |
|
[KL6X9] 0 |
X+2Z = 10 | |
[KX2Z4] 0 |
|
[KX4Z3] 0 |
|
[KX6Z2] 0 |
|
[KX8Z] 0 |
|
[KX10] 0 |
|
[KLX10] 0 |
|
[KL2X10] 0 |
|
[KL3X10] 0 |
|
[KL4X10] 0 |
|
[KL5X10] 0 |
|
X+2Z = 11 | [KXZ5] 0 |
|
[KX3Z4] 0 |
|
[KX5Z3] 0 |
|
[KX7Z2] 0 |
|
[KX9Z] 0 |
|
[KX11] 0 |
|
[KLX11] 0 |
|
[KL2X11] 0 |
|
[KL3X11] 0 |
|
[KL4X11] 0 |
|
[KL5X11] 0 |
X+2Z = 12 | |
[KX2Z5] 0 |
|
[KX4Z4] 0 |
|
[KX6Z3] 0 |
|
[KX8Z2] 0 |
|
[KX10Z] 0 |
|
[KX12] 0 |
|
[KLX12] 0 |
|
[KL2X12] 0 |
|
[KL3X12] 0 |
|
[KL4X12] 0 |
|
MLXZq± grid for potassium (K) for Q = 1: [KXxLlZz]+
The number of compounds found is 43.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 potassium with that [MLXZ]q± classification.
EN➝ | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | [KL]+ 0 |
|
[KL2]+ 0 |
|
[KL3]+ 0 |
|
[KL4]+ 5% |
|
[KL5]+ 2% |
|
[KL6]+ 28% |
|
[KL7]+ 9% |
|
[KL8]+ 44% |
|
[KL9]+ 2% |
|
[KL10]+ 7% |
|
[KL11]+ 2% |
X+2Z = 1 | |
[KLX]+ 0 |
|
[KL2X]+ 0 |
|
[KL3X]+ 0 |
|
[KL4X]+ 0 |
|
[KL5X]+ 0 |
|
[KL6X]+ 0 |
|
[KL7X]+ 0 |
|
[KL8X]+ 0 |
|
[KL9X]+ 0 |
|
[KL10X]+ 0 |
|
X+2Z = 2 | [KX2]+ 0 |
|
[KLX2]+ 0 |
|
[KL2X2]+ 0 |
|
[KL3X2]+ 0 |
|
[KL4X2]+ 0 |
|
[KL5X2]+ 0 |
|
[KL6X2]+ 0 |
|
[KL7X2]+ 0 |
|
[KL8X2]+ 0 |
|
[KL9X2]+ 0 |
|
[KL10X2]+ 0 |
X+2Z = 3 | |
[KX3]+ 0 |
|
[KLX3]+ 0 |
|
[KL2X3]+ 0 |
|
[KL3X3]+ 0 |
|
[KL4X3]+ 0 |
|
[KL5X3]+ 0 |
|
[KL6X3]+ 0 |
|
[KL7X3]+ 0 |
|
[KL8X3]+ 0 |
|
[KL9X3]+ 0 |
|
X+2Z = 4 | [KX2Z]+ 0 |
|
[KX4]+ 0 |
|
[KLX4]+ 0 |
|
[KL2X4]+ 0 |
|
[KL3X4]+ 0 |
|
[KL4X4]+ 0 |
|
[KL5X4]+ 0 |
|
[KL6X4]+ 0 |
|
[KL7X4]+ 0 |
|
[KL8X4]+ 0 |
|
[KL9X4]+ 0 |
X+2Z = 5 | |
[KX3Z]+ 0 |
|
[KX5]+ 0 |
|
[KLX5]+ 0 |
|
[KL2X5]+ 0 |
|
[KL3X5]+ 0 |
|
[KL4X5]+ 0 |
|
[KL5X5]+ 0 |
|
[KL6X5]+ 0 |
|
[KL7X5]+ 0 |
|
[KL8X5]+ 0 |
|
X+2Z = 6 | [KX2Z2]+ 0 |
|
[KX4Z]+ 0 |
|
[KX6]+ 0 |
|
[KLX6]+ 0 |
|
[KL2X6]+ 0 |
|
[KL3X6]+ 0 |
|
[KL4X6]+ 0 |
|
[KL5X6]+ 0 |
|
[KL6X6]+ 0 |
|
[KL7X6]+ 0 |
|
[KL8X6]+ 0 |
X+2Z = 7 | |
[KX3Z2]+ 0 |
|
[KX5Z]+ 0 |
|
[KX7]+ 0 |
|
[KLX7]+ 0 |
|
[KL2X7]+ 0 |
|
[KL3X7]+ 0 |
|
[KL4X7]+ 0 |
|
[KL5X7]+ 0 |
|
[KL6X7]+ 0 |
|
[KL7X7]+ 0 |
|
X+2Z = 8 | [KX2Z3]+ 0 |
|
[KX4Z2]+ 0 |
|
[KX6Z]+ 0 |
|
[KX8]+ 0 |
|
[KLX8]+ 0 |
|
[KL2X8]+ 0 |
|
[KL3X8]+ 0 |
|
[KL4X8]+ 0 |
|
[KL5X8]+ 0 |
|
[KL6X8]+ 0 |
|
[KL7X8]+ 0 |
X+2Z = 9 | |
[KX3Z3]+ 0 |
|
[KX5Z2]+ 0 |
|
[KX7Z]+ 0 |
|
[KX9]+ 0 |
|
[KLX9]+ 0 |
|
[KL2X9]+ 0 |
|
[KL3X9]+ 0 |
|
[KL4X9]+ 0 |
|
[KL5X9]+ 0 |
|
[KL6X9]+ 0 |
|
X+2Z = 10 | [KX2Z4]+ 0 |
|
[KX4Z3]+ 0 |
|
[KX6Z2]+ 0 |
|
[KX8Z]+ 0 |
|
[KX10]+ 0 |
|
[KLX10]+ 0 |
|
[KL2X10]+ 0 |
|
[KL3X10]+ 0 |
|
[KL4X10]+ 0 |
|
[KL5X10]+ 0 |
|
[KL6X10]+ 0 |
X+2Z = 11 | |
[KX3Z4]+ 0 |
|
[KX5Z3]+ 0 |
|
[KX7Z2]+ 0 |
|
[KX9Z]+ 0 |
|
[KX11]+ 0 |
|
[KLX11]+ 0 |
|
[KL2X11]+ 0 |
|
[KL3X11]+ 0 |
|
[KL4X11]+ 0 |
|
[KL5X11]+ 0 |
|
X+2Z = 12 | [KX2Z5]+ 0 |
|
[KX4Z4]+ 0 |
|
[KX6Z3]+ 0 |
|
[KX8Z2]+ 0 |
|
[KX10Z]+ 0 |
|
[KX12]+ 0 |
|
[KLX12]+ 0 |
|
[KL2X12]+ 0 |
|
[KL3X12]+ 0 |
|
[KL4X12]+ 0 |
|
[KL5X12]+ 0 |
MLXZq± grid for potassium (K) for Q = 2: [KXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for potassium (K) for Q = 3: [KXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for potassium (K) for Q = 4: [KXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -6: [RbXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -5: [RbXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -4: [RbXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -3: [RbXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -2: [RbXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = -1: [RbXxLlZz]-
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = 0: [RbXxLlZz]
The number of compounds found is 24.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 rubidium with that [MLXZ]q± classification.
EN➝ | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | |
[RbL] 0 |
|
[RbL2] 0 |
|
[RbL3] 0 |
|
[RbL4] 0 |
|
[RbL5] 0 |
|
[RbL6] 0 |
|
[RbL7] 0 |
|
[RbL8] 0 |
|
[RbL9] 0 |
|
X+2Z = 1 | [RbX] 4% |
|
[RbLX] 8% |
|
[RbL2X] 8% |
|
[RbL3X] 8% |
|
[RbL4X] 0 |
|
[RbL5X] 8% |
|
[RbL6X] 17% |
|
[RbL7X] 33% |
|
[RbL8X] 8% |
|
[RbL9X] 4% |
X+2Z = 2 | |
[RbX2] 0 |
|
[RbLX2] 0 |
|
[RbL2X2] 0 |
|
[RbL3X2] 0 |
|
[RbL4X2] 0 |
|
[RbL5X2] 0 |
|
[RbL6X2] 0 |
|
[RbL7X2] 0 |
|
[RbL8X2] 0 |
|
X+2Z = 3 | [RbXZ] 0 |
|
[RbX3] 0 |
|
[RbLX3] 0 |
|
[RbL2X3] 0 |
|
[RbL3X3] 0 |
|
[RbL4X3] 0 |
|
[RbL5X3] 0 |
|
[RbL6X3] 0 |
|
[RbL7X3] 0 |
|
[RbL8X3] 0 |
X+2Z = 4 | |
[RbX2Z] 0 |
|
[RbX4] 0 |
|
[RbLX4] 0 |
|
[RbL2X4] 0 |
|
[RbL3X4] 0 |
|
[RbL4X4] 0 |
|
[RbL5X4] 0 |
|
[RbL6X4] 0 |
|
[RbL7X4] 0 |
|
X+2Z = 5 | [RbXZ2] 0 |
|
[RbX3Z] 0 |
|
[RbX5] 0 |
|
[RbLX5] 0 |
|
[RbL2X5] 0 |
|
[RbL3X5] 0 |
|
[RbL4X5] 0 |
|
[RbL5X5] 0 |
|
[RbL6X5] 0 |
|
[RbL7X5] 0 |
X+2Z = 6 | |
[RbX2Z2] 0 |
|
[RbX4Z] 0 |
|
[RbX6] 0 |
|
[RbLX6] 0 |
|
[RbL2X6] 0 |
|
[RbL3X6] 0 |
|
[RbL4X6] 0 |
|
[RbL5X6] 0 |
|
[RbL6X6] 0 |
|
X+2Z = 7 | [RbXZ3] 0 |
|
[RbX3Z2] 0 |
|
[RbX5Z] 0 |
|
[RbX7] 0 |
|
[RbLX7] 0 |
|
[RbL2X7] 0 |
|
[RbL3X7] 0 |
|
[RbL4X7] 0 |
|
[RbL5X7] 0 |
|
[RbL6X7] 0 |
X+2Z = 8 | |
[RbX2Z3] 0 |
|
[RbX4Z2] 0 |
|
[RbX6Z] 0 |
|
[RbX8] 0 |
|
[RbLX8] 0 |
|
[RbL2X8] 0 |
|
[RbL3X8] 0 |
|
[RbL4X8] 0 |
|
[RbL5X8] 0 |
|
X+2Z = 9 | [RbXZ4] 0 |
|
[RbX3Z3] 0 |
|
[RbX5Z2] 0 |
|
[RbX7Z] 0 |
|
[RbX9] 0 |
|
[RbLX9] 0 |
|
[RbL2X9] 0 |
|
[RbL3X9] 0 |
|
[RbL4X9] 0 |
|
[RbL5X9] 0 |
X+2Z = 10 | |
[RbX2Z4] 0 |
|
[RbX4Z3] 0 |
|
[RbX6Z2] 0 |
|
[RbX8Z] 0 |
|
[RbX10] 0 |
|
[RbLX10] 0 |
|
[RbL2X10] 0 |
|
[RbL3X10] 0 |
|
[RbL4X10] 0 |
|
X+2Z = 11 | [RbXZ5] 0 |
|
[RbX3Z4] 0 |
|
[RbX5Z3] 0 |
|
[RbX7Z2] 0 |
|
[RbX9Z] 0 |
|
[RbX11] 0 |
|
[RbLX11] 0 |
|
[RbL2X11] 0 |
|
[RbL3X11] 0 |
|
[RbL4X11] 0 |
X+2Z = 12 | |
[RbX2Z5] 0 |
|
[RbX4Z4] 0 |
|
[RbX6Z3] 0 |
|
[RbX8Z2] 0 |
|
[RbX10Z] 0 |
|
[RbX12] 0 |
|
[RbLX12] 0 |
|
[RbL2X12] 0 |
|
[RbL3X12] 0 |
|
MLXZq± grid for rubidium (Rb) for Q = 1: [RbXxLlZz]+
The number of compounds found is 9.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 rubidium with that [MLXZ]q± classification.
EN➝ | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | [RbL]+ 0 |
|
[RbL2]+ 0 |
|
[RbL3]+ 0 |
|
[RbL4]+ 0 |
|
[RbL5]+ 0 |
|
[RbL6]+ 11% |
|
[RbL7]+ 11% |
|
[RbL8]+ 33% |
|
[RbL9]+ 11% |
|
[RbL10]+ 33% |
X+2Z = 1 | |
[RbLX]+ 0 |
|
[RbL2X]+ 0 |
|
[RbL3X]+ 0 |
|
[RbL4X]+ 0 |
|
[RbL5X]+ 0 |
|
[RbL6X]+ 0 |
|
[RbL7X]+ 0 |
|
[RbL8X]+ 0 |
|
[RbL9X]+ 0 |
|
X+2Z = 2 | [RbX2]+ 0 |
|
[RbLX2]+ 0 |
|
[RbL2X2]+ 0 |
|
[RbL3X2]+ 0 |
|
[RbL4X2]+ 0 |
|
[RbL5X2]+ 0 |
|
[RbL6X2]+ 0 |
|
[RbL7X2]+ 0 |
|
[RbL8X2]+ 0 |
|
[RbL9X2]+ 0 |
X+2Z = 3 | |
[RbX3]+ 0 |
|
[RbLX3]+ 0 |
|
[RbL2X3]+ 0 |
|
[RbL3X3]+ 0 |
|
[RbL4X3]+ 0 |
|
[RbL5X3]+ 0 |
|
[RbL6X3]+ 0 |
|
[RbL7X3]+ 0 |
|
[RbL8X3]+ 0 |
|
X+2Z = 4 | [RbX2Z]+ 0 |
|
[RbX4]+ 0 |
|
[RbLX4]+ 0 |
|
[RbL2X4]+ 0 |
|
[RbL3X4]+ 0 |
|
[RbL4X4]+ 0 |
|
[RbL5X4]+ 0 |
|
[RbL6X4]+ 0 |
|
[RbL7X4]+ 0 |
|
[RbL8X4]+ 0 |
X+2Z = 5 | |
[RbX3Z]+ 0 |
|
[RbX5]+ 0 |
|
[RbLX5]+ 0 |
|
[RbL2X5]+ 0 |
|
[RbL3X5]+ 0 |
|
[RbL4X5]+ 0 |
|
[RbL5X5]+ 0 |
|
[RbL6X5]+ 0 |
|
[RbL7X5]+ 0 |
|
X+2Z = 6 | [RbX2Z2]+ 0 |
|
[RbX4Z]+ 0 |
|
[RbX6]+ 0 |
|
[RbLX6]+ 0 |
|
[RbL2X6]+ 0 |
|
[RbL3X6]+ 0 |
|
[RbL4X6]+ 0 |
|
[RbL5X6]+ 0 |
|
[RbL6X6]+ 0 |
|
[RbL7X6]+ 0 |
X+2Z = 7 | |
[RbX3Z2]+ 0 |
|
[RbX5Z]+ 0 |
|
[RbX7]+ 0 |
|
[RbLX7]+ 0 |
|
[RbL2X7]+ 0 |
|
[RbL3X7]+ 0 |
|
[RbL4X7]+ 0 |
|
[RbL5X7]+ 0 |
|
[RbL6X7]+ 0 |
|
X+2Z = 8 | [RbX2Z3]+ 0 |
|
[RbX4Z2]+ 0 |
|
[RbX6Z]+ 0 |
|
[RbX8]+ 0 |
|
[RbLX8]+ 0 |
|
[RbL2X8]+ 0 |
|
[RbL3X8]+ 0 |
|
[RbL4X8]+ 0 |
|
[RbL5X8]+ 0 |
|
[RbL6X8]+ 0 |
X+2Z = 9 | |
[RbX3Z3]+ 0 |
|
[RbX5Z2]+ 0 |
|
[RbX7Z]+ 0 |
|
[RbX9]+ 0 |
|
[RbLX9]+ 0 |
|
[RbL2X9]+ 0 |
|
[RbL3X9]+ 0 |
|
[RbL4X9]+ 0 |
|
[RbL5X9]+ 0 |
|
X+2Z = 10 | [RbX2Z4]+ 0 |
|
[RbX4Z3]+ 0 |
|
[RbX6Z2]+ 0 |
|
[RbX8Z]+ 0 |
|
[RbX10]+ 0 |
|
[RbLX10]+ 0 |
|
[RbL2X10]+ 0 |
|
[RbL3X10]+ 0 |
|
[RbL4X10]+ 0 |
|
[RbL5X10]+ 0 |
X+2Z = 11 | |
[RbX3Z4]+ 0 |
|
[RbX5Z3]+ 0 |
|
[RbX7Z2]+ 0 |
|
[RbX9Z]+ 0 |
|
[RbX11]+ 0 |
|
[RbLX11]+ 0 |
|
[RbL2X11]+ 0 |
|
[RbL3X11]+ 0 |
|
[RbL4X11]+ 0 |
|
X+2Z = 12 | [RbX2Z5]+ 0 |
|
[RbX4Z4]+ 0 |
|
[RbX6Z3]+ 0 |
|
[RbX8Z2]+ 0 |
|
[RbX10Z]+ 0 |
|
[RbX12]+ 0 |
|
[RbLX12]+ 0 |
|
[RbL2X12]+ 0 |
|
[RbL3X12]+ 0 |
|
[RbL4X12]+ 0 |
MLXZq± grid for rubidium (Rb) for Q = 2: [RbXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = 3: [RbXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for rubidium (Rb) for Q = 4: [RbXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for caesium (Cs) for Q = -6: [CsXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for caesium (Cs) for Q = -5: [CsXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for caesium (Cs) for Q = -4: [CsXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for caesium (Cs) for Q = -3: [CsXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for caesium (Cs) for Q = -2: [CsXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for caesium (Cs) for Q = -1: [CsXxLlZz]-
The number of compounds found is 0.
MLXZq± grid for caesium (Cs) for Q = 0: [CsXxLlZz]
The number of compounds found is 14.
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 caesium with that [MLXZ]q± classification.
EN➝ | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | |
[CsL] 0 |
|
[CsL2] 0 |
|
[CsL3] 0 |
|
[CsL4] 0 |
|
[CsL5] 0 |
|
[CsL6] 0 |
|
[CsL7] 0 |
|
[CsL8] 0 |
|
[CsL9] 0 |
|
[CsL10] 0 |
|
[CsL11] 0 |
|
X+2Z = 1 | [CsX] 14% |
|
[CsLX] 0 |
|
[CsL2X] 7% |
|
[CsL3X] 7% |
|
[CsL4X] 7% |
|
[CsL5X] 7% |
|
[CsL6X] 0 |
|
[CsL7X] 21% |
|
[CsL8X] 36% |
|
[CsL9X] 0 |
|
[CsL10X] 0 |
|
[CsL11X] 0 |
X+2Z = 2 | |
[CsX2] 0 |
|
[CsLX2] 0 |
|
[CsL2X2] 0 |
|
[CsL3X2] 0 |
|
[CsL4X2] 0 |
|
[CsL5X2] 0 |
|
[CsL6X2] 0 |
|
[CsL7X2] 0 |
|
[CsL8X2] 0 |
|
[CsL9X2] 0 |
|
[CsL10X2] 0 |
|
X+2Z = 3 | [CsXZ] 0 |
|
[CsX3] 0 |
|
[CsLX3] 0 |
|
[CsL2X3] 0 |
|
[CsL3X3] 0 |
|
[CsL4X3] 0 |
|
[CsL5X3] 0 |
|
[CsL6X3] 0 |
|
[CsL7X3] 0 |
|
[CsL8X3] 0 |
|
[CsL9X3] 0 |
|
[CsL10X3] 0 |
X+2Z = 4 | |
[CsX2Z] 0 |
|
[CsX4] 0 |
|
[CsLX4] 0 |
|
[CsL2X4] 0 |
|
[CsL3X4] 0 |
|
[CsL4X4] 0 |
|
[CsL5X4] 0 |
|
[CsL6X4] 0 |
|
[CsL7X4] 0 |
|
[CsL8X4] 0 |
|
[CsL9X4] 0 |
|
X+2Z = 5 | [CsXZ2] 0 |
|
[CsX3Z] 0 |
|
[CsX5] 0 |
|
[CsLX5] 0 |
|
[CsL2X5] 0 |
|
[CsL3X5] 0 |
|
[CsL4X5] 0 |
|
[CsL5X5] 0 |
|
[CsL6X5] 0 |
|
[CsL7X5] 0 |
|
[CsL8X5] 0 |
|
[CsL9X5] 0 |
X+2Z = 6 | |
[CsX2Z2] 0 |
|
[CsX4Z] 0 |
|
[CsX6] 0 |
|
[CsLX6] 0 |
|
[CsL2X6] 0 |
|
[CsL3X6] 0 |
|
[CsL4X6] 0 |
|
[CsL5X6] 0 |
|
[CsL6X6] 0 |
|
[CsL7X6] 0 |
|
[CsL8X6] 0 |
|
X+2Z = 7 | [CsXZ3] 0 |
|
[CsX3Z2] 0 |
|
[CsX5Z] 0 |
|
[CsX7] 0 |
|
[CsLX7] 0 |
|
[CsL2X7] 0 |
|
[CsL3X7] 0 |
|
[CsL4X7] 0 |
|
[CsL5X7] 0 |
|
[CsL6X7] 0 |
|
[CsL7X7] 0 |
|
[CsL8X7] 0 |
X+2Z = 8 | |
[CsX2Z3] 0 |
|
[CsX4Z2] 0 |
|
[CsX6Z] 0 |
|
[CsX8] 0 |
|
[CsLX8] 0 |
|
[CsL2X8] 0 |
|
[CsL3X8] 0 |
|
[CsL4X8] 0 |
|
[CsL5X8] 0 |
|
[CsL6X8] 0 |
|
[CsL7X8] 0 |
|
X+2Z = 9 | [CsXZ4] 0 |
|
[CsX3Z3] 0 |
|
[CsX5Z2] 0 |
|
[CsX7Z] 0 |
|
[CsX9] 0 |
|
[CsLX9] 0 |
|
[CsL2X9] 0 |
|
[CsL3X9] 0 |
|
[CsL4X9] 0 |
|
[CsL5X9] 0 |
|
[CsL6X9] 0 |
|
[CsL7X9] 0 |
X+2Z = 10 | |
[CsX2Z4] 0 |
|
[CsX4Z3] 0 |
|
[CsX6Z2] 0 |
|
[CsX8Z] 0 |
|
[CsX10] 0 |
|
[CsLX10] 0 |
|
[CsL2X10] 0 |
|
[CsL3X10] 0 |
|
[CsL4X10] 0 |
|
[CsL5X10] 0 |
|
[CsL6X10] 0 |
|
X+2Z = 11 | [CsXZ5] 0 |
|
[CsX3Z4] 0 |
|
[CsX5Z3] 0 |
|
[CsX7Z2] 0 |
|
[CsX9Z] 0 |
|
[CsX11] 0 |
|
[CsLX11] 0 |
|
[CsL2X11] 0 |
|
[CsL3X11] 0 |
|
[CsL4X11] 0 |
|
[CsL5X11] 0 |
|
[CsL6X11] 0 |
X+2Z = 12 | |
[CsX2Z5] 0 |
|
[CsX4Z4] 0 |
|
[CsX6Z3] 0 |
|
[CsX8Z2] 0 |
|
[CsX10Z] 0 |
|
[CsX12] 0 |
|
[CsLX12] 0 |
|
[CsL2X12] 0 |
|
[CsL3X12] 0 |
|
[CsL4X12] 0 |
|
[CsL5X12] 0 |
|
MLXZq± grid for caesium (Cs) for Q = 1: [CsXxLlZz]+
The number of compounds found is 14.
The intensity of the colour of each table cell relates to the percentage of compounds found with the [MLXZ]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 caesium with that [MLXZ]q± classification.
EN➝ | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
X+2Z = 0 | [CsL]+ 0 |
|
[CsL2]+ 0 |
|
[CsL3]+ 0 |
|
[CsL4]+ 0 |
|
[CsL5]+ 7% |
|
[CsL6]+ 29% |
|
[CsL7]+ 7% |
|
[CsL8]+ 21% |
|
[CsL9]+ 7% |
|
[CsL10]+ 14% |
|
[CsL11]+ 7% |
|
[CsL12]+ 7% |
X+2Z = 1 | |
[CsLX]+ 0 |
|
[CsL2X]+ 0 |
|
[CsL3X]+ 0 |
|
[CsL4X]+ 0 |
|
[CsL5X]+ 0 |
|
[CsL6X]+ 0 |
|
[CsL7X]+ 0 |
|
[CsL8X]+ 0 |
|
[CsL9X]+ 0 |
|
[CsL10X]+ 0 |
|
[CsL11X]+ 0 |
|
X+2Z = 2 | [CsX2]+ 0 |
|
[CsLX2]+ 0 |
|
[CsL2X2]+ 0 |
|
[CsL3X2]+ 0 |
|
[CsL4X2]+ 0 |
|
[CsL5X2]+ 0 |
|
[CsL6X2]+ 0 |
|
[CsL7X2]+ 0 |
|
[CsL8X2]+ 0 |
|
[CsL9X2]+ 0 |
|
[CsL10X2]+ 0 |
|
[CsL11X2]+ 0 |
X+2Z = 3 | |
[CsX3]+ 0 |
|
[CsLX3]+ 0 |
|
[CsL2X3]+ 0 |
|
[CsL3X3]+ 0 |
|
[CsL4X3]+ 0 |
|
[CsL5X3]+ 0 |
|
[CsL6X3]+ 0 |
|
[CsL7X3]+ 0 |
|
[CsL8X3]+ 0 |
|
[CsL9X3]+ 0 |
|
[CsL10X3]+ 0 |
|
X+2Z = 4 | [CsX2Z]+ 0 |
|
[CsX4]+ 0 |
|
[CsLX4]+ 0 |
|
[CsL2X4]+ 0 |
|
[CsL3X4]+ 0 |
|
[CsL4X4]+ 0 |
|
[CsL5X4]+ 0 |
|
[CsL6X4]+ 0 |
|
[CsL7X4]+ 0 |
|
[CsL8X4]+ 0 |
|
[CsL9X4]+ 0 |
|
[CsL10X4]+ 0 |
X+2Z = 5 | |
[CsX3Z]+ 0 |
|
[CsX5]+ 0 |
|
[CsLX5]+ 0 |
|
[CsL2X5]+ 0 |
|
[CsL3X5]+ 0 |
|
[CsL4X5]+ 0 |
|
[CsL5X5]+ 0 |
|
[CsL6X5]+ 0 |
|
[CsL7X5]+ 0 |
|
[CsL8X5]+ 0 |
|
[CsL9X5]+ 0 |
|
X+2Z = 6 | [CsX2Z2]+ 0 |
|
[CsX4Z]+ 0 |
|
[CsX6]+ 0 |
|
[CsLX6]+ 0 |
|
[CsL2X6]+ 0 |
|
[CsL3X6]+ 0 |
|
[CsL4X6]+ 0 |
|
[CsL5X6]+ 0 |
|
[CsL6X6]+ 0 |
|
[CsL7X6]+ 0 |
|
[CsL8X6]+ 0 |
|
[CsL9X6]+ 0 |
X+2Z = 7 | |
[CsX3Z2]+ 0 |
|
[CsX5Z]+ 0 |
|
[CsX7]+ 0 |
|
[CsLX7]+ 0 |
|
[CsL2X7]+ 0 |
|
[CsL3X7]+ 0 |
|
[CsL4X7]+ 0 |
|
[CsL5X7]+ 0 |
|
[CsL6X7]+ 0 |
|
[CsL7X7]+ 0 |
|
[CsL8X7]+ 0 |
|
X+2Z = 8 | [CsX2Z3]+ 0 |
|
[CsX4Z2]+ 0 |
|
[CsX6Z]+ 0 |
|
[CsX8]+ 0 |
|
[CsLX8]+ 0 |
|
[CsL2X8]+ 0 |
|
[CsL3X8]+ 0 |
|
[CsL4X8]+ 0 |
|
[CsL5X8]+ 0 |
|
[CsL6X8]+ 0 |
|
[CsL7X8]+ 0 |
|
[CsL8X8]+ 0 |
X+2Z = 9 | |
[CsX3Z3]+ 0 |
|
[CsX5Z2]+ 0 |
|
[CsX7Z]+ 0 |
|
[CsX9]+ 0 |
|
[CsLX9]+ 0 |
|
[CsL2X9]+ 0 |
|
[CsL3X9]+ 0 |
|
[CsL4X9]+ 0 |
|
[CsL5X9]+ 0 |
|
[CsL6X9]+ 0 |
|
[CsL7X9]+ 0 |
|
X+2Z = 10 | [CsX2Z4]+ 0 |
|
[CsX4Z3]+ 0 |
|
[CsX6Z2]+ 0 |
|
[CsX8Z]+ 0 |
|
[CsX10]+ 0 |
|
[CsLX10]+ 0 |
|
[CsL2X10]+ 0 |
|
[CsL3X10]+ 0 |
|
[CsL4X10]+ 0 |
|
[CsL5X10]+ 0 |
|
[CsL6X10]+ 0 |
|
[CsL7X10]+ 0 |
X+2Z = 11 | |
[CsX3Z4]+ 0 |
|
[CsX5Z3]+ 0 |
|
[CsX7Z2]+ 0 |
|
[CsX9Z]+ 0 |
|
[CsX11]+ 0 |
|
[CsLX11]+ 0 |
|
[CsL2X11]+ 0 |
|
[CsL3X11]+ 0 |
|
[CsL4X11]+ 0 |
|
[CsL5X11]+ 0 |
|
[CsL6X11]+ 0 |
|
X+2Z = 12 | [CsX2Z5]+ 0 |
|
[CsX4Z4]+ 0 |
|
[CsX6Z3]+ 0 |
|
[CsX8Z2]+ 0 |
|
[CsX10Z]+ 0 |
|
[CsX12]+ 0 |
|
[CsLX12]+ 0 |
|
[CsL2X12]+ 0 |
|
[CsL3X12]+ 0 |
|
[CsL4X12]+ 0 |
|
[CsL5X12]+ 0 |
|
[CsL6X12]+ 0 |
MLXZq± grid for caesium (Cs) for Q = 2: [CsXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for caesium (Cs) for Q = 3: [CsXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for caesium (Cs) for Q = 4: [CsXxLlZz]4+
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = -6: [FrXxLlZz]6-
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = -5: [FrXxLlZz]5-
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = -4: [FrXxLlZz]4-
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = -3: [FrXxLlZz]3-
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = -2: [FrXxLlZz]2-
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = -1: [FrXxLlZz]-
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = 0: [FrXxLlZz]
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = 1: [FrXxLlZz]+
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = 2: [FrXxLlZz]2+
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = 3: [FrXxLlZz]3+
The number of compounds found is 0.
MLXZq± grid for francium (Fr) for Q = 4: [FrXxLlZz]4+
The number of compounds found is 0.