Weijin Wang scite author profile

The electrophilic halogenation of arenes is perhaps the simplest method to prepare aryl halides, which are important structural motifs in agrochemicals, materials, and pharmaceuticals. However, the nucleophilicity of arenes is weakened by the electron-withdrawing substituents, whose electrophilic halogenation reactions usually require harsh conditions and lead to limited substrate scopes and applications. Therefore, the halogenation of arenes containing electron-withdrawing groups (EWGs) and complex bioactive compounds under mild conditions has been a long-standing challenge. Herein, we describe Brønsted acid-catalyzed halogenation of arenes with electron-withdrawing substituents under mild conditions, providing an efficient protocol for aryl halides. The hydrogen bonding of Brønsted acid with the protic solvent 1,1,1,3,3,3-hexafluoro-2-propanol (HFIP) enables this transformation and thus solves this long-standing problem.

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Oxoammonium salts are catalysing efficient and selective halogenation of olefins, alkynes and aromatics

Wang

Yang

et al. 2021

Nat Commun

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Electrophilic halogenation reactions have been a reliable approach to accessing organohalides. During the past decades, various catalytic systems have been developed for the activation of haleniums. However, there is still a short of effective catalysts, which could cover various halogenation reactions and broad scope of unsaturated compounds. Herein, TEMPO (2,2,6,6-tetramethylpiperidine nitroxide) and its derivatives are disclosed as active catalysts for electrophilic halogenation of olefins, alkynes, and aromatics. These catalysts are stable, readily available, and reactive enough to activate haleniums including Br+, I+ and even Cl+ reagents. This catalytic system is applicable to various halogenations including haloarylation of olefins or dibromination of alkynes, which were rarely realized in previous Lewis base catalysis or Lewis acid catalysis. The high catalytic ability is attributed to a synergistic activation model of electrophilic halogenating reagents, where the carbonyl group and the halogen atom are both activated by present TEMPO catalysis.

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Nitromethane-Enabled Fluorination of Styrenes and Arenes

et al. 2020

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The electrophilic fluorination of unsaturated compounds provides a reliable approach to the generation of organofluorides, which are used widely in agrochemicals, pharmaceuticals, and other materials. Numerous active electrophilic fluorine reagents, such as the fluorine molecule (F 2 ) or xenon difluoride (XeF 2 ), have been applied in fluorination. However, these reagents suffer from their hazardous, toxic, corrosive, and poor selective properties, and the relatively weak electrophilicity of Selectfluor or N-fluorobenzenesulfonimide (NFSI) usually limits their broad applications. Herein, we disclose nitromethane (MeNO 2 ) as an efficient activator of Selectfluor and NFSI, as well as a stabilizer of carbocations.Therefore, the fluoro-azidation, fluoroamination, fluoroesterification of styrenes, and C-H fluorination of (hetero)arenes were well realized just by the facilitation of MeNO 2 . The mild reaction conditions and practicability made our current method a versatile protocol for accessing organofluorides.

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A metal-free desulfurizing radical reductive C–C coupling of thiols and alkenes

Wang

Zhang

et al. 2019

Chem. Commun.

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Weijin Wang

DMSO-catalysed late-stage chlorination of (hetero)arenes

Catalytic Electrophilic Halogenation of Arenes with Electron-Withdrawing Substituents

Oxoammonium salts are catalysing efficient and selective halogenation of olefins, alkynes and aromatics

Nitromethane-Enabled Fluorination of Styrenes and Arenes

A metal-free desulfurizing radical reductive C–C coupling of thiols and alkenes

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