σ-Holes, π-holes and electrostatically-driven interactions

J. Murray; P. Lane; Tim Clark; K. Riley; P. Politzer

doi:10.1007/s00894-011-1089-1

σ-Holes, π-holes and electrostatically-driven interactions

J. Murray, P. Lane, Tim Clark, K. Riley, P. Politzer

Research output: Contribution to journal › Article › peer-review

Abstract

A positive π-hole is a region of positive electrostatic potential that is perpendicular to a portion of a molecular framework. It is the counterpart of a σ-hole, which is along the extension of a covalent bond to an atom. Both σ-holes and π-holes become more positive (a) in going from the lighter to the heavier atoms in a given Group of the periodic table, and (b) as the remainder of the molecule is more electron-withdrawing. Positive σ- and π-holes can interact in a highly directional manner with negative sites, e.g., the lone pairs of Lewis bases. In this work, the complexes of 13 π-hole-containing molecules with the nitrogen lone pairs of HCN and NH3 have been characterized computationally using the MP2, M06-2X and B3PW91 procedures. While the electrostatic interaction is a major driving force in π-hole bonding, a gradation is found from weakly noncovalent to considerably stronger with possible indications of some degree of coordinate covalency.

Original language	English
Pages (from-to)	541-548
Number of pages	8
Journal	Journal of Molecular Modeling
Volume	18
Issue number	2
DOIs	https://doi.org/10.1007/s00894-011-1089-1
Publication status	Published - Feb 2012

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title = "σ-Holes, π-holes and electrostatically-driven interactions",

abstract = "A positive π-hole is a region of positive electrostatic potential that is perpendicular to a portion of a molecular framework. It is the counterpart of a σ-hole, which is along the extension of a covalent bond to an atom. Both σ-holes and π-holes become more positive (a) in going from the lighter to the heavier atoms in a given Group of the periodic table, and (b) as the remainder of the molecule is more electron-withdrawing. Positive σ- and π-holes can interact in a highly directional manner with negative sites, e.g., the lone pairs of Lewis bases. In this work, the complexes of 13 π-hole-containing molecules with the nitrogen lone pairs of HCN and NH3 have been characterized computationally using the MP2, M06-2X and B3PW91 procedures. While the electrostatic interaction is a major driving force in π-hole bonding, a gradation is found from weakly noncovalent to considerably stronger with possible indications of some degree of coordinate covalency.",

author = "J. Murray and P. Lane and Tim Clark and K. Riley and P. Politzer",

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doi = "10.1007/s00894-011-1089-1",

language = "English",

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journal = "Journal of Molecular Modeling",

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T1 - σ-Holes, π-holes and electrostatically-driven interactions

AU - Murray, J.

AU - Lane, P.

AU - Clark, Tim

AU - Riley, K.

AU - Politzer, P.

PY - 2012/2

Y1 - 2012/2

N2 - A positive π-hole is a region of positive electrostatic potential that is perpendicular to a portion of a molecular framework. It is the counterpart of a σ-hole, which is along the extension of a covalent bond to an atom. Both σ-holes and π-holes become more positive (a) in going from the lighter to the heavier atoms in a given Group of the periodic table, and (b) as the remainder of the molecule is more electron-withdrawing. Positive σ- and π-holes can interact in a highly directional manner with negative sites, e.g., the lone pairs of Lewis bases. In this work, the complexes of 13 π-hole-containing molecules with the nitrogen lone pairs of HCN and NH3 have been characterized computationally using the MP2, M06-2X and B3PW91 procedures. While the electrostatic interaction is a major driving force in π-hole bonding, a gradation is found from weakly noncovalent to considerably stronger with possible indications of some degree of coordinate covalency.

AB - A positive π-hole is a region of positive electrostatic potential that is perpendicular to a portion of a molecular framework. It is the counterpart of a σ-hole, which is along the extension of a covalent bond to an atom. Both σ-holes and π-holes become more positive (a) in going from the lighter to the heavier atoms in a given Group of the periodic table, and (b) as the remainder of the molecule is more electron-withdrawing. Positive σ- and π-holes can interact in a highly directional manner with negative sites, e.g., the lone pairs of Lewis bases. In this work, the complexes of 13 π-hole-containing molecules with the nitrogen lone pairs of HCN and NH3 have been characterized computationally using the MP2, M06-2X and B3PW91 procedures. While the electrostatic interaction is a major driving force in π-hole bonding, a gradation is found from weakly noncovalent to considerably stronger with possible indications of some degree of coordinate covalency.

U2 - 10.1007/s00894-011-1089-1

DO - 10.1007/s00894-011-1089-1

M3 - Article

SN - 1610-2940

VL - 18

SP - 541

EP - 548

JO - Journal of Molecular Modeling

JF - Journal of Molecular Modeling

IS - 2

ER -

σ-Holes, π-holes and electrostatically-driven interactions

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