- The cyanide (CN−) ligand is a monodentate ligand with a charge of −1.
- The overall charge of the complex is −1, so for [Co(CN)4]−, the charge on cobalt must be +3.
- Cobalt has an atomic number of 27, so the electron configuration of neutral Co is:
Co: [Ar] 3d7 4s2 - For Co3+, cobalt loses three electrons (two from the 4s orbital and one from the 3d orbital), giving the electron configuration:
Co3+: [Ar] 3d6 - In [Co(CN)4]−, the coordination number of cobalt is 4, as it is surrounded by four cyanide (CN−) ligands.
- A coordination number of 4 suggests that the complex could adopt either a tetrahedral or square planar geometry.
- Cyanide (CN−) is a strong field ligand, it causes significant pairing of electrons in the metal ion’s d-orbitals.
- The Co3+ ion has 6 electrons in the 3d-orbitals. To minimize electron repulsion, these electrons will pair up in the lower-energy orbitals, leading to a low-spin configuration.
- Given the strong-field ligands, cobalt will undergo d2sp3 hybridisation, resulting in square planar geometry (common for d6 systems with strong field ligands).
- The electron configuration of Co3+ is 3d6.
- Cyanide is a strong field ligand; it will cause the electrons to pair up in the t2g orbitals (low-spin configuration).
- As a result, all six electrons in the Co3+ ion will be paired.
Since there are no unpaired electrons in the complex, it is diamagnetic.
