What is the geometry of [Ni(CO)]-4

What is the geometry of [Ni(CO)]-4?

The correct answer and explanation is :

The geometry of the complex ion $[Ni(CO)_4]^{-}$ is tetrahedral.

Explanation:

To understand why $[Ni(CO)_4]^{-}$ adopts a tetrahedral geometry, we need to examine its electronic structure, bonding, and the characteristics of the involved ligands.

1. Oxidation State of Nickel: In the complex $[Ni(CO)_4]^{-}$, the carbon monoxide (CO) ligands are neutral, and the overall charge of the complex is $-1$. The oxidation state of nickel (Ni) in this case is $+1$, as the sum of the charges of the ligands (each CO being neutral) and the complex ion’s overall charge must add up to $-1$.
2. Electron Configuration of Ni$^+$: Nickel has an atomic number of 28, so its neutral atomic configuration is [Ar] 3d$^8$ 4s$^2$. In the +1 oxidation state, Ni$^+$ loses one electron, resulting in the configuration [Ar] 3d$^8$. This gives the Ni$^+$ ion 8 valence electrons available for bonding.
3. Ligand Donation and Bonding: Each CO molecule is a strong ligand, donating a lone pair of electrons to form a coordinate bond with the metal center. CO acts as a $\sigma$-donor and can also interact with the metal through its $\pi$-electrons. In total, four CO molecules coordinate to the Ni$^+$ ion, contributing their lone pairs of electrons for bonding.
4. Tetrahedral Geometry: Given that Ni$^+$ has 8 valence electrons and is bonded to four identical CO ligands, the complex adopts a geometry that minimizes electron pair repulsion, which is tetrahedral in this case. The tetrahedral arrangement allows for the optimal distribution of electron density around the central metal ion.
5. Ligand Field Theory: According to ligand field theory, the Ni$^+$ ion in $[Ni(CO)_4]^{-}$ experiences a symmetrical ligand field from the four CO ligands. This results in a tetrahedral structure because the four ligands are evenly spaced, providing the most stable arrangement for the 4 bonding pairs of electrons.

Thus, the geometry of $[Ni(CO)_4]^{-}$ is tetrahedral due to the nature of the bonding and the spatial arrangement of the ligands around the nickel center.