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用于水系可充电电池的低成本有机阴极工程及吡嗪储能单元质子嵌入机制的证明

Engineering Low-Cost Organic Cathode for Aqueous Rechargeable Battery and Demonstrating the Proton Intercalation Mechanism for Pyrazine Energy Storage Unit.

作者信息

Niu Suyan, Wang Yao, Zhang Jianwen, Wang Yiming, Tian Yaxiong, Ju Na, Wang Haipeng, Zhao Shuya, Zhang Xinyue, Zhang Wenlong, Li Chengrui, Sun Hong-Bin

机构信息

Department of Chemistry, Northeastern University, Shenyang, 110819, P. R. China.

Department of Chemistry, Shanghai University, Shanghai, 200444, P. R. China.

出版信息

Small. 2024 May;20(21):e2309022. doi: 10.1002/smll.202309022. Epub 2023 Dec 12.

Abstract

Seeking organic cathode materials with low cost and long cycle life that can be employed for large-scale energy storage remains a significant challenge. This work has synthesized an organic compound, triphenazino2,3-b (TPHATP), with as high as 87.16% yield. This compound has a highly π-conjugated and rigid molecular structure, which is synthesized by capping hexaketocyclohexane with three molecules of 2,3-diaminophenazine derived from low-cost o-phenylenediamine, and is used as a cathode material for assembling aqueous rechargeable zinc ion batteries. Both experiments and DFT calculations demonstrate that the redox mechanism of TPHATP is predominantly governed by H storage. The Zn-intercalation product of nitride-type compound, is too unstable to form in water. Moreover, the TPHATP cathode exhibits a capacity of as high as 318.3 mAh g at 0.1 A g, and maintained a stable capacity of 111.9 mAh g at a large current density of 10 A g for 5000 cycles with only a decay of 0.000512% per cycle. This study provides new insights into understanding pyrazine as an active redox group and offers a potential affordable aqueous battery system for grid-scale energy storage.

摘要

寻找可用于大规模储能的低成本、长循环寿命的有机阴极材料仍然是一项重大挑战。这项工作合成了一种有机化合物,三吩嗪并[2,3 - b](1,4,5,8,9,12 - 六氮杂三亚苯)(TPHATP),产率高达87.16%。该化合物具有高度π共轭和刚性的分子结构,它是由低成本的邻苯二胺衍生的三分子2,3 - 二氨基吩嗪封端六酮环己烷合成的,并用作组装水系可充电锌离子电池的阴极材料。实验和密度泛函理论计算均表明,TPHATP的氧化还原机制主要受氢存储控制。氮化物型化合物的锌嵌入产物在水中太不稳定而无法形成。此外,TPHATP阴极在0.1 A g时表现出高达318.3 mAh g的容量,在10 A g的大电流密度下5000次循环中保持111.9 mAh g的稳定容量,每次循环仅衰减0.000512%。这项研究为理解吡嗪作为活性氧化还原基团提供了新的见解,并为电网规模储能提供了一种潜在的经济适用水系电池系统。

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