σ-hole and lone-pair (lp) hole interactions of trivalent pnicogen-bearing compounds were comparatively investigated under field-free and external electric field (EEF) conditions.
σ-Hole and
lone-pair (lp)-hole interactions within σ-hole···σ-hole,
σ-hole···lp-hole, and lp-hole···lp-hole
configurations were comparatively investigated on the pnicogen···pnicogen
homodimers (PCl
3
)
2
, for the first time, under
field-free conditions and the influence of the external electric field
(EEF). The electrostatic potential calculations emphasized the impressive
versatility of the examined PCl
3
monomers to participate
in σ-hole and lp-hole pnicogen interactions. Crucially, the
sizes of σ-hole and lp-hole were enlarged under the influence
of the positively directed EEF and decreased in the case of reverse
direction. Interestingly, the energetic quantities unveiled more favorability
of the σ-hole···lp-hole configuration of the
pnicogen···pnicogen homodimers, with significant negative
interaction energies, than σ-hole···σ-hole
and lp-hole···lp-hole configurations. Quantum theory
of atoms in molecules and noncovalent interaction index analyses were
adopted to elucidate the nature and origin of the considered interactions,
ensuring their closed shell nature and the occurrence of attractive
forces within the studied homodimers. Symmetry-adapted perturbation
theory-based energy decomposition analysis alluded to the dispersion
force as the main physical component beyond the occurrence of the
examined interactions. The obtained findings would be considered as
a fundamental underpinning for forthcoming studies pertinent to chemistry,
materials science, and crystal engineering.
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