Tianwei Cui scite author profile

A copper-mediated direct C3 amination of imidazopyridines has been disclosed under additive-free conditions in short reaction times. This methodology utilizes commercially available N-fluorobenzenesulfonimide (NFSI) as the amino source, which exhibits broad substrate scope and good functional group tolerance. The obtained C3-aminated imidazopyridines can undergo further desulfonylation transformations. Control experiments suggest that this reaction probably proceeds via a free-radical mechanism. Moreover, NFSI also shows potential application in C–H fluorination of imidazopyridines.

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Photoresponsive molecular tweezer: Control-release of anions and fluorescence switch

Leng

Liu

Cui

et al. 2021

Dyes and Pigments

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Anionic Redox in Rechargeable Batteries: Mechanism, Materials, and Characterization

Cui

2023

Adv Funct Materials

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Compared with conventional positive electrode materials in Li‐ion batteries, Li‐rich materials have a huge advantage of large specific capacities of >300 mAh g−1. Anionic redox mechanism is proposed to explain the over‐capacity, which means anions can participate in the redox process for charge compensation. The concept enriches the range and design considerations of high‐energy‐density positive electrode materials for both Li‐ion and Na‐ion batteries, which therefore arouses extensive attention. This review summarizes the progress of anionic redox in rechargeable batteries in recent years and discusses the fundamental mechanism that triggers anionic redox. Moreover, the state‐of‐the‐art materials involving anionic redox are illustrated, accompanied by the challenges for practical applications. Furthermore, the common techniques for monitoring anionic redox are reviewed and compared for an advisable choice in future studies. Finally, the consideration and discussion for designing stable positive electrodes based on cationic and anionic redox are presented. The perspective is highlighted and this review provides a basic understanding of anionic redox in rechargeable batteries and paves the way to develop high‐capacity positive electrodes for high‐energy battery systems.

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Metal-organic supramolecular nanoarchitectures by Ru(II) bis-(terpyridine)-bridged pillar[5]arene dimers with triphenylamine

Cui

Liu

Zhang

et al. 2021

Chinese Chemical Letters

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Iron-Catalyzed C–H Sulfonylmethylation of Indoles in Water–PEG400

Zhu¹,

Yan²,

Cui³

et al. 2019

Synlett

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Tianwei Cui

Copper-Mediated C–H Amination of Imidazopyridines with N-Fluorobenzenesulfonimide

Photoresponsive molecular tweezer: Control-release of anions and fluorescence switch

Anionic Redox in Rechargeable Batteries: Mechanism, Materials, and Characterization

Metal-organic supramolecular nanoarchitectures by Ru(II) bis-(terpyridine)-bridged pillar[5]arene dimers with triphenylamine

Iron-Catalyzed C–H Sulfonylmethylation of Indoles in Water–PEG400

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