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Organic Cathode Materials for Rechargeable Zinc Batteries: Mechanisms, Challenges, and Perspectives.
ChemSusChem ( IF 7.5 ) Pub Date : 2020-04-02 , DOI: 10.1002/cssc.201903265 Jin Cui 1 , Zhaowei Guo 2 , Jin Yi 1 , Xiaoyu Liu 1 , Kai Wu 1 , Pengcheng Liang 1 , Qian Li 3 , Yuyu Liu 1 , Yonggang Wang 2 , Yongyao Xia 2, 4 , Jiujun Zhang 1
ChemSusChem ( IF 7.5 ) Pub Date : 2020-04-02 , DOI: 10.1002/cssc.201903265 Jin Cui 1 , Zhaowei Guo 2 , Jin Yi 1 , Xiaoyu Liu 1 , Kai Wu 1 , Pengcheng Liang 1 , Qian Li 3 , Yuyu Liu 1 , Yonggang Wang 2 , Yongyao Xia 2, 4 , Jiujun Zhang 1
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Energy and environmental issues have given rise to the development of advanced energy-storage devices worldwide. Electrochemical energy technologies, such as rechargeable batteries, are considered to be the most reliable and efficient candidates. Compared with other batteries, zinc-based batteries seem promising due to their advantages, including inherent safety, cost-effectiveness, and environmentally friendliness. As potential alternatives to conventional inorganic cathodes, organic cathodes for Zn-organic batteries have become a hot topic for research, owing to their favorable characteristics, such as easy structure design, controllable synthesis, and environmental benignancy. Herein, a systematic overview on the fundamentals of organic cathode materials for zinc batteries, including material design, electrochemical mechanisms, technical advances, and challenging analysis, is provided. Furthermore, perspectives and corresponding research directions are offered to facilitate the future development of organic cathode materials for zinc batteries toward practical applications.
中文翻译:
可充电锌电池的有机阴极材料:机理,挑战和前景。
能源和环境问题已导致世界范围内先进的储能设备的发展。电化学能源技术(例如可充电电池)被认为是最可靠,最有效的选择。与其他电池相比,锌基电池由于其固有的安全性,成本效益和环境友好性等优点而显得很有前途。作为常规无机阴极的潜在替代品,用于锌有机电池的有机阴极由于其良好的特性(例如易于结构设计,可控制的合成和对环境有益的特性)已成为研究的热点。在此,系统概述锌电池有机阴极材料的基本原理,包括材料设计,电化学机理,提供了技术进步和具有挑战性的分析。此外,提供了观点和相应的研究方向,以促进用于锌电池的有机阴极材料在实际应用中的未来发展。
更新日期:2020-04-02
中文翻译:
可充电锌电池的有机阴极材料:机理,挑战和前景。
能源和环境问题已导致世界范围内先进的储能设备的发展。电化学能源技术(例如可充电电池)被认为是最可靠,最有效的选择。与其他电池相比,锌基电池由于其固有的安全性,成本效益和环境友好性等优点而显得很有前途。作为常规无机阴极的潜在替代品,用于锌有机电池的有机阴极由于其良好的特性(例如易于结构设计,可控制的合成和对环境有益的特性)已成为研究的热点。在此,系统概述锌电池有机阴极材料的基本原理,包括材料设计,电化学机理,提供了技术进步和具有挑战性的分析。此外,提供了观点和相应的研究方向,以促进用于锌电池的有机阴极材料在实际应用中的未来发展。
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