Theoretical investigation of von Braun and von Braun‐like reactions

The von Braun reaction, discovered at the dawn of the past century, consists of the reaction between a tertiary amine and cyanogen bromide. It leads to the cleavage of a C─N bond with the formation of an N‐dialkylcyanamide and an alkyl bromide and has been extensively used in organic synthesis. A de...

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Veröffentlicht in:	International journal of quantum chemistry 2020-02, Vol.120 (3), p.n/a
Hauptverfasser:	Couty, François, Burov, Oleg N., Kletskii, Mikhail E., Lisovin, Anton V., Wright, Karen, Drouillat, Bruno, Kurbatov, Sergey V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Amines Bromine Chemical reactions Chemical Sciences Chemistry Cyanogen Density functional theory DFT‐calculations electrocyclic reactions Mathematical analysis multibonded bromine atom nucleophilic substitution Organic chemistry Physical chemistry Quantum chemistry Quantum physics Scandals Selectivity strained heterocycles
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container_title	International journal of quantum chemistry
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creator	Couty, François Burov, Oleg N. Kletskii, Mikhail E. Lisovin, Anton V. Wright, Karen Drouillat, Bruno Kurbatov, Sergey V.
description	The von Braun reaction, discovered at the dawn of the past century, consists of the reaction between a tertiary amine and cyanogen bromide. It leads to the cleavage of a C─N bond with the formation of an N‐dialkylcyanamide and an alkyl bromide and has been extensively used in organic synthesis. A detailed in silico study (PCM/density functional theory [DFT]/B3LYP/6‐31++G(d,p) calculations) of this venerable reaction has shown that in the first stage a zwitterionic adduct with a multibonded bromine atom is formed. The widely accepted mechanism involving an SN2 reaction occurs in the second step, thus accounting for its selectivity. Quantum chemical calculations were performed for the von Braun‐like reactions in systems formed by cyclic tertiary amines (N‐alkyl azetidines). In these cases, the first stage is almost the same as in the classical von Braun processes, and selective SN2 mechanisms can occur in the second step. The von Braun reaction is a two‐step process between a tertiary amine and cyanogen bromide. At the first stage, molecular associates with multicoordinated bromine atom are formed. SN2 reactions occur in the second step, thus accounting for selectivity of the von Braun reaction. Front‐side and backside bromine attacks occur within the zwitterionic associates. For some systems, alkyl bromide elimination and ring‐opening processes may compete.
doi_str_mv	10.1002/qua.26088
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It leads to the cleavage of a C─N bond with the formation of an N‐dialkylcyanamide and an alkyl bromide and has been extensively used in organic synthesis. A detailed in silico study (PCM/density functional theory [DFT]/B3LYP/6‐31++G(d,p) calculations) of this venerable reaction has shown that in the first stage a zwitterionic adduct with a multibonded bromine atom is formed. The widely accepted mechanism involving an SN2 reaction occurs in the second step, thus accounting for its selectivity. Quantum chemical calculations were performed for the von Braun‐like reactions in systems formed by cyclic tertiary amines (N‐alkyl azetidines). In these cases, the first stage is almost the same as in the classical von Braun processes, and selective SN2 mechanisms can occur in the second step. The von Braun reaction is a two‐step process between a tertiary amine and cyanogen bromide. At the first stage, molecular associates with multicoordinated bromine atom are formed. SN2 reactions occur in the second step, thus accounting for selectivity of the von Braun reaction. Front‐side and backside bromine attacks occur within the zwitterionic associates. 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It leads to the cleavage of a C─N bond with the formation of an N‐dialkylcyanamide and an alkyl bromide and has been extensively used in organic synthesis. A detailed in silico study (PCM/density functional theory [DFT]/B3LYP/6‐31++G(d,p) calculations) of this venerable reaction has shown that in the first stage a zwitterionic adduct with a multibonded bromine atom is formed. The widely accepted mechanism involving an SN2 reaction occurs in the second step, thus accounting for its selectivity. Quantum chemical calculations were performed for the von Braun‐like reactions in systems formed by cyclic tertiary amines (N‐alkyl azetidines). In these cases, the first stage is almost the same as in the classical von Braun processes, and selective SN2 mechanisms can occur in the second step. The von Braun reaction is a two‐step process between a tertiary amine and cyanogen bromide. At the first stage, molecular associates with multicoordinated bromine atom are formed. SN2 reactions occur in the second step, thus accounting for selectivity of the von Braun reaction. Front‐side and backside bromine attacks occur within the zwitterionic associates. 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subjects	Amines Bromine Chemical reactions Chemical Sciences Chemistry Cyanogen Density functional theory DFT‐calculations electrocyclic reactions Mathematical analysis multibonded bromine atom nucleophilic substitution Organic chemistry Physical chemistry Quantum chemistry Quantum physics Scandals Selectivity strained heterocycles
title	Theoretical investigation of von Braun and von Braun‐like reactions
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