用于高性能水系钙离子电池的具有多个氧化还原活性位点的共价有机框架

Covalent Organic Framework with Multiple Redox Active Sites for High-Performance Aqueous Calcium Ion Batteries.

作者信息

Zhang Siqi, Zhu You-Liang, Ren Siyuan, Li Chunguang, Chen Xiao-Bo, Li Zhenjiang, Han Yu, Shi Zhan, Feng Shouhua

机构信息

State Key Laboratory of Inorganic Synthesis and Preparative Chemistry, College of Chemistry, Jilin University, Changchun 130012, People's Republic of China.

State Key Laboratory of Supramolecular Structure and Materials, College of Chemistry, Jilin University, Changchun 130012, People's Republic of China.

出版信息

J Am Chem Soc. 2023 Aug 9;145(31):17309-17320. doi: 10.1021/jacs.3c04657. Epub 2023 Jul 31.

DOI:10.1021/jacs.3c04657

PMID:37525440

Abstract

Organic materials are promising for cation storage in calcium ion batteries (CIBs). However, the high solubility of organic materials in an electrolyte and low electronic conductivity remain the key challenges for high-performance CIBs. Herein, a nitrogen-rich covalent organic framework with multiple carbonyls (TB-COF) is designed as an aqueous anode to address those obstacles. TB-COF demonstrates a high reversible capacity of 253 mAh g at 1.0 A g and long cycle life (0.01% capacity decay per cycle at 5 A g after 3000 cycles). The redox mechanism of Ca/H co-intercalated in COF and chelating with C═O and C═N active sites is validated. In addition, a novel C═C active site was identified for Ca ion storage. Both computational and empirical results reveal that per TB-COF repetitive unit, up to nine Ca ions are stored after three staggered intercalation steps, involving three distinct Ca ion storage sites. Finally, the evolution process of radical intermediates further elucidates the C═C reaction mechanism.

摘要

有机材料在钙离子电池（CIBs）的阳离子存储方面具有潜力。然而，有机材料在电解质中的高溶解度和低电子导电性仍然是高性能CIBs面临的关键挑战。在此，设计了一种具有多个羰基的富氮共价有机框架（TB-COF）作为水系阳极来克服这些障碍。TB-COF在1.0 A g时表现出253 mAh g的高可逆容量和长循环寿命（在5 A g下3000次循环后每循环容量衰减0.01%）。验证了Ca/H共嵌入COF并与C═O和C═N活性位点螯合的氧化还原机制。此外，还确定了一个用于钙离子存储的新型C═C活性位点。计算和实验结果均表明，每个TB-COF重复单元在三个交错嵌入步骤后最多可存储九个钙离子，涉及三个不同的钙离子存储位点。最后，自由基中间体的演化过程进一步阐明了C═C反应机制。

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用于高性能水系钙离子电池的具有多个氧化还原活性位点的共价有机框架

Covalent Organic Framework with Multiple Redox Active Sites for High-Performance Aqueous Calcium Ion Batteries.

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