What question did this study set out to answer?

This research aims to compare the hydrogen-bonding behavior of isocyanides and nitriles.

March 15, 2026Open Access

Isocyanides Versus Nitriles: Divergent Hydrogen Bonding Behavior Driven by the Balance Between Dispersive and Electrostatic Forces

Puntos clave

This research aims to compare the hydrogen-bonding behavior of isocyanides and nitriles.
Utilized jet-cooled Fourier transform infrared spectroscopy to analyze structures.
Examined complexes of tert-butyl isocyanide and pivalonitrile with H2O and tert-butyl alcohol.
Identified hydrogen bond types in the complexes.
t-BuNC forms a classical σ-type hydrogen bond structure.
t-BuCN favors a dispersion-stabilized orthogonal π-type arrangement.
Substituting H2O with tert-butyl alcohol enhances dispersion interactions.

Resumen

Isocyanides as hydrogen-bond acceptors are characterized using jet-cooled Fourier transform infrared spectroscopy for the first time. The hydrogen-bonded structures of tert-butyl isocyanide (t-BuNC) and its constitutional isomer pivalonitrile (t-BuCN) with a single H2O or tert-butyl alcohol (t-BuOH) molecule are analyzed. The most stable monohydrate structures differ markedly: t-BuNC adopts a classical σ-type hydrogen bond, whereas t-BuCN favors a dispersion-stabilized orthogonal π-type arrangement. Substitution of H2O with the more polarizable t-BuOH enhances dispersion interaction between the molecules and drives both complexes toward π-type binding motifs. These findings highlight the balance between dispersive and electrostatic interactions in governing noncovalent binding preferences.

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