Studies of the Functionalized α-Hydroxy-p-Quinone Imine Derivatives Stabilized by Intramolecular Hydrogen Bond

Gaile, Anastasija; Belyakov, Sergey; Dūrena, Ramona; Griščenko, Ņikita; Zukuls, Anzelms; Batenko, Nelli

doi:10.3390/molecules29071613

Molecules

2024

DOI: 10.3390/molecules29071613

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Studies of the Functionalized α-Hydroxy-p-Quinone Imine Derivatives Stabilized by Intramolecular Hydrogen Bond

Anastasija Gaile,

Sergey Belyakov,

Ramona Dūrena

et al.

Abstract: In this work, reactions between 6,7-dichloropyrido[1,2-a]benzimidazole-8,9-diones with different benzohydrazides were studied. Nucleophilic substitution at C(6) was followed by isomerization and led to α-hydroxy-p-quinone imine derivatives. Synthesized compounds represent a combination of several structural motifs: a benzimidazole core fused with α-hydroxy-p-quinone imine, which contains a benzamide fragment. X-ray crystallography analysis revealed the formation of dimers linked through OH···O interactions and… Show more

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A Review of Self-Healing Polymers for Lithium Batteries: from Mechanistic Insight to Application

Sun,

Wang,

Cao

et al. 2024

SEE

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Review A Review of Self-Healing Polymers for Lithium Batteries: From Mechanistic Insight to Application Qiyue Sun, Yongyin Wang, Qiaoying Cao *, Hang Hu, Mingtao Zheng, Yong Xiao, Yingliang Liu and Yeru Liang * Key Laboratory for Biobased Materials and Energy of Ministry of Education, College of Materials and Energy, South China Agricultural University, Guangzhou 510642, China * Correspondence: caoqy@scau.edu.cn (Q.C.); liangyr@scau.edu.cn (Y.L.) Received: 11 May 2024; Revised: 19 June 2024; Accepted: 22 July 2024; Published: 14 August 2024 Abstract: Lithium batteries are crucial for powering portable electronic devices and electric vehicles, profoundly impacting our global society. However, their repeated charge and discharge cycles cause structural changes that lead to mechanical fractures in the internal components, significantly reducing cycling lifetimes of lithium batteries. Utilizing intrinsic self-healing polymers is a promising strategy to address these issues, as these materials can spontaneously repair mechanical cracks or damages, resulting in greatly enhanced electrochemical performance. In this review, we present and highlight how self-healing polymers contribute to improved electrochemical performance in lithium batteries. We first introduce the self-healing mechanisms identified in current self-healing functions, including external and intrinsic self-healing. Then, we discuss their effects on different electrolyte and binder materials. Key examples illustrating the efficacy of self-healing polymers in extending cycle life and improving battery stability are discussed. Finally, we propose some challenges and future opportunities in this evolving field to stimulate the rational design of advanced self-healing polymers for stable lithium batteries.

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A Review of Self-Healing Polymers for Lithium Batteries: from Mechanistic Insight to Application

Sun,

Wang,

Cao

et al. 2024

SEE

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show abstract

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Studies of the Functionalized α-Hydroxy-p-Quinone Imine Derivatives Stabilized by Intramolecular Hydrogen Bond

Cited by 1 publication

References 50 publications

A Review of Self-Healing Polymers for Lithium Batteries: from Mechanistic Insight to Application

A Review of Self-Healing Polymers for Lithium Batteries: from Mechanistic Insight to Application

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