Trisilylamine, , exhibits a completely planar geometry around the nitrogen atom, whereas trimethylam — Chemical Bonding Chemistry Question
Question
Trisilylamine, $N(SiH_3)_3$, exhibits a completely planar geometry around the nitrogen atom, whereas trimethylamine, $N(CH_3)_3$, is strictly pyramidal. This structural difference is attributed to:
Answer: B
💡 Solution & Explanation
In $N(SiH_3)_3$, the central nitrogen is $sp^2$ hybridized because its lone pair (in a $p$ -orbital) undergoes $p\pi-d\pi$ back bonding with the vacant $3d$ -orbitals of the adjacent silicon atoms. This delocalization flattens the molecule. Carbon in $N(CH_3)_3$ lacks vacant $d$ -orbitals, keeping N $sp^3$ hybridized (pyramidal).
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