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Catalysis with Pnictogen, Chalcogen, and Halogen Bonds.


ABSTRACT: Halogen- and chalcogen-based σ-hole interactions have recently received increased interest in non-covalent organocatalysis. However, the closely related pnictogen bonds have been neglected. In this study, we introduce conceptually simple, neutral, and monodentate pnictogen-bonding catalysts. Solution and in silico binding studies, together with high catalytic activity in chloride abstraction reactions, yield compelling evidence for operational pnictogen bonds. The depth of the σ holes is easily varied with different substituents. Comparison with homologous halogen- and chalcogen-bonding catalysts shows an increase in activity from main group VII to V and from row 3 to 5 in the periodic table. Pnictogen bonds from antimony thus emerged as by far the best among the elements covered, a finding that provides most intriguing perspectives for future applications in catalysis and beyond.

SUBMITTER: Benz S 

PROVIDER: S-EPMC5947745 | biostudies-literature | 2018 May

REPOSITORIES: biostudies-literature

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Catalysis with Pnictogen, Chalcogen, and Halogen Bonds.

Benz Sebastian S   Poblador-Bahamonde Amalia I AI   Low-Ders Nicolas N   Matile Stefan S  

Angewandte Chemie (International ed. in English) 20180320 19


Halogen- and chalcogen-based σ-hole interactions have recently received increased interest in non-covalent organocatalysis. However, the closely related pnictogen bonds have been neglected. In this study, we introduce conceptually simple, neutral, and monodentate pnictogen-bonding catalysts. Solution and in silico binding studies, together with high catalytic activity in chloride abstraction reactions, yield compelling evidence for operational pnictogen bonds. The depth of the σ holes is easily  ...[more]

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