Cyanonickelate
The cyanonickelates are a class of chemical compound containing anions consisting of nickel atoms, and cyanide groups. The most important of these are the tetracyanonickelates containing four cyanide groups per nickel. The tetracyanonickelates contain the 2− anion. This can exist in solution or in solid salts. The ion has cyanide groups arranged in a square around the central nickel ion. The symmetry of the ion is D4h. The distance from the nickel atom to the carbon is 1.87 Å, and the carbon-nitrogen distance is 1.16 Å. Tetracyanonickelate can be oxidised electrochemically in solution to yield tetracyanonickelate −. − is unstable and Ni oxidises the cyanide to cyanate OCN−. Tetracyanonickelate can add two more cyanide groups to form hexacyanonickelate.
In combination with alkyldiamines, and other metal ions, tetracyanonickelate ions can form cage structure that can accommodate organic molecules. This is a Hofmann-diam-type clathrate.
If the cation is a very strong reducing agent, such as Yb2+, 2− can be reduced to 4− where nickel atom is in the +1 oxidation state.
| formula | name | Ni Ox | structure | Remarks | references |
| Na2·3H2O | disodium tetracyanonickelate | 2 | triclinic a = 7.392 Å, b = 8.895 Å, c = 15.11 Å, α = 89.12, β= 87.46, γ = 84.54° Z=4 V=988 Å3 FW=262.81 | orange; Ni4 planes parallel | |
| K2·H2O | potassium tetracyanonickelate | 2 | monoclinic | orange-red; dehydrate at 110° | |
| K2 | potassium tetracyanonickelate | 2 | monoclinic a=4.294 Å, b=7.680 Å, c=13.02 Å, β=87°16′ | orange-yellow; CN forms a square around Ni | |
| Ca·5H2O | calcium tetracyanonickelate | 2 | orthorhombic Pcab a=18.18 Å, b=18.86 Å, c=6.774 Å, Z=8, V=2195 Å3, density=1.774 | CN forms distorted square around Ni; yellow when light polarized in elongation direction, colourless ⊥ | |
| Co·2H2O·4H2O | diaquacobalt tetracyanonickelate tetrahydrate | 2 | orthorhombic a=12.178 Å, b=13.885 Å, c=7.143 Å, V=1207.8 Z=4 | Orange MW=329.82 | |
| Ni2·C6H6 | Hofmann clathrate | 2/2 | benzene can be replaced by some other aromatic hydrocarbons; octahedral nickel can be replaced by Mn, Fe, Co, Cu, Zn or Cd. The square planar nickel can be replaced by Pd or Pt. Ammonia can be replaced by diamines and amines. | ||
| Rb2·H2O | rubidium tetracyanonickelate | 2 | triclinic P a=8.602 Å, b=9.693 Å, c=12.006 Å, α = 92.621°, β= 94.263∘, γ =111.79° V=924.0 Å3 | orange needles; Ni4 planes parallel; water in 5% excess | |
| Sr·5H2O | strontium tetracyanonickelate | 2 | monoclinic C2/m, a=10.356 Å, b=15.272 Å, c=7.133 Å, α=98.55°, V=1115.6 Å3 | orange; Ni4 planes parallel | |
| Cd·2H2O·4H2O | diaquacadmium tetracyanonickelate tetrahydrate | 2 | orthorhombic Pnma, a = 12.393 Å, b = 14.278 Å, c = 7.427 Å, Z = 4, V=1314 Å3, density=1.937 | MW=383.27 | |
| Cs2·1.05H2O | Cesium tetracyanonickelate | 2 | hexagonal, P61, a = 9.526 Å, c = 19.043 Å, V = 1496.5 Å3 Z=6 | golden yellow; Ni4 planes arranged in a spiral | |
| CsKNi4 | cesium potassium tetracyanonickelate | 2 | triclinic a= 7.421 Å, b= 8.626 Å, c= 9.364 Å, α= 60.64°,β= 70.88°, y= 70.88°, and Z= 2. den=2.55 | orange | |
| Ba·4H2O | barium tetracyanonickelate | 2 | monoclinic | red | |
| 4EuNi4 | Europium tetracyanonickelate | 2 | triclinic P1̄, a=8.902Å, b=10.947Å, c = 12.464Å, α = 82.99°, β = 86.86°, γ = 84.92°, Z = 2 | ||
| Tl2·1.05H2O | Thallium tetracyanonickelate | 2 | monoclinic a=6.154 b=7.282 c=9.396 β=104.29 V=408.0 Z=2 density=4.652 | bright yellow orange; chains of TlNi | |
| 242 | 2 | monoclinic C2/c a=21.522 Å, b=10.2531 Å, c=13.3170 Å, β=111.943° V=2725.8 Å | yellow | ||
| K4 | potassium tetracyano-µ-dicyanonickelate | 1 |