2018
DOI: 10.1016/j.chempr.2018.02.022
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Sigma-Hole Interactions in Anion Recognition

Abstract: Sigma (s)-holes are electron-deficient regions that arise from the anisotropic distribution of electron density on the atom of group 14 (tetrels), 15 (pnictogens), 16 (chalcogens), and 17 (halogens) elements when covalently bonded to electron-withdrawing groups. Named after the donor atom's group, the s-hole interactions, halogen bonding, and chalcogen bonding with anionic species have found ground-breaking applications in anion supramolecular chemistry within the last decade. In this review, we feature key re… Show more

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Cited by 351 publications
(317 citation statements)
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“…The large, polarizable, almost directionless π surface offered by anion‐ π interactions appears ideal to stabilize anionic transition states that involve charge displacements over longer distances, e.g ., cascade cyclizations . The advantages of σ ‐hole interactions, the unorthodox counterpart of hydrogen bonds, appear almost complementary: More hydrophobic and directional than hydrogen bonds, they should be ideal for high‐precision catalysis in apolar media.…”
Section: Methodsmentioning
confidence: 99%
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“…The large, polarizable, almost directionless π surface offered by anion‐ π interactions appears ideal to stabilize anionic transition states that involve charge displacements over longer distances, e.g ., cascade cyclizations . The advantages of σ ‐hole interactions, the unorthodox counterpart of hydrogen bonds, appear almost complementary: More hydrophobic and directional than hydrogen bonds, they should be ideal for high‐precision catalysis in apolar media.…”
Section: Methodsmentioning
confidence: 99%
“…Originating from anti‐bonding σ * orbitals, chalcogen bonds extend linearly from the covalent bonds (bond angle Φ 1 ~ 180°) and thus appear on the side of the chalcogen atom (bond angle Φ 2 ~ 70°, Figure ,a ) . They have been studied extensively in crystal engineering and for intramolecular conformational control in solution, including prominent use in medicinal chemistry and pioneering applications in covalent catalysis . The use of intermolecular chalcogen bonds in functional systems in solution is rare and recent, non‐covalent chalcogen‐bonding catalysis has been introduced only last year.…”
Section: Methodsmentioning
confidence: 99%
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“…Chalcogen bonding (ChB) is a subgroup of the σ‐hole family that originates from the interaction between an electron‐rich atom or group of atoms and the σ‐hole of an element belonging to group 16 . In fact, chalcogen bonding has been recently defined by a IUPAC commission as “net attractive interaction between an electrophilic region associated with a chalcogen atom in a molecular entity and a nucleophilic region in another, or the same, molecular entity” .…”
Section: Introductionmentioning
confidence: 99%
“…In fact, these distinctive characteristics of ChBs have been used in crystal engineering, pharmaceutics, catalysis, anion transport, self‐assembly processes, and materials design . However, studies of ChB interactions in solution remain scarce . For instance, Zibarev et al .…”
Section: Introductionmentioning
confidence: 99%