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On the Importance of σ–Hole Interactions in Crystal Structures

Antonio Frontera, Antonio Bauzá

2021Crystals86 citationsDOIOpen Access PDF

Abstract

Elements from groups 14–18 and periods 3–6 commonly behave as Lewis acids, which are involved in directional noncovalent interactions (NCI) with electron-rich species (lone pair donors), π systems (aromatic rings, triple and double bonds) as well as nonnucleophilic anions (BF4−, PF6−, ClO4−, etc.). Moreover, elements of groups 15 to 17 are also able to act as Lewis bases (from one to three available lone pairs, respectively), thus presenting a dual character. These emerging NCIs where the main group element behaves as Lewis base, belong to the σ–hole family of interactions. Particularly (i) tetrel bonding for elements belonging to group 14, (ii) pnictogen bonding for group 15, (iii) chalcogen bonding for group 16, (iv) halogen bonding for group 17, and (v) noble gas bondings for group 18. In general, σ–hole interactions exhibit different features when moving along the same group (offering larger and more positive σ–holes) or the same row (presenting a different number of available σ–holes and directionality) of the periodic table. This is illustrated in this review by using several examples retrieved from the Cambridge Structural Database (CSD), especially focused on σ–hole interactions, complemented with molecular electrostatic potential surfaces of model systems.

Topics & Concepts

PnictogenLone pairGroup (periodic table)Main group elementCrystallographyLewis acids and basesChalcogenNon-covalent interactionsHalogen bondChemistryHalogenElectron pairCrystal structureChemical physicsComputational chemistryStereochemistryElectronMoleculePhysicsCondensed matter physicsOrganic chemistryHydrogen bondTransition metalQuantum mechanicsCatalysisAlkylSuperconductivityCrystallography and molecular interactionsSolid-state spectroscopy and crystallographyCrystal structures of chemical compounds
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