State the geometry and magnetic property of tetracarbonyl nickel according to the valence bond theory. - Chemistry (Theory)

State the geometry and magnetic property of tetracarbonyl nickel according to the valence bond theory.

Very Long Answer

Tetracarbonyl nickel, Ni(CO)₄, has a tetrahedral geometry.
Nickel in Ni(CO)₄ has an atomic number of 28, so its ground-state electronic configuration is:
Ni (Z = 28): [Ar] 3d⁸ 4s²
In the complex, Ni is in the zero oxidation state.
The 4s and three 4p orbitals hybridize to form four sp³ hybrid orbitals.
In the sp³hybridization state of the nickel atom within the

Ni(CO)₄ complex, all the electrons are paired.
Each CO ligand donates a lone pair of electrons into these hybrid orbitals.
This results in a tetrahedral shape.
The 3d electrons in nickel pair up due to the strong field ligand CO.
This results in a 3d¹⁰ configuration (fully paired).
As there are no unpaired electrons, the complex is diamagnetic.

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Chapter 9: Coordination Compounds - QUESTIONS FROM ISC EXAMINATION PAPERS [Page 561]

Chapter 9 Coordination Compounds
QUESTIONS FROM ISC EXAMINATION PAPERS | Q 5. (a) (i) | Page 561