储能科学与技术 ›› 2020, Vol. 9 ›› Issue (S1): 13-22.doi: 10.19799/j.cnki.2095-4239.2020.0263

• 储能材料与器件 • 上一篇    下一篇

Water-in-salt电解液研究进展

朱佳静(), 高筠()   

  1. 华北理工大学化学工程学院,河北 唐山 063210
  • 收稿日期:2020-08-17 修回日期:2020-09-03 出版日期:2020-12-05 发布日期:2020-12-02
  • 通讯作者: 高筠 E-mail:1799047518@qq.com;gaoyun@ncst.edu.cn
  • 作者简介:朱佳静(1996—),女,硕士研究生,研究方向为材料电化学,E-mail:1799047518@qq.com
  • 基金资助:
    河北省自然科学基金项目(E2020209183)

Research progress of water-in-salt electrolytes

Jiajing ZHU(), Yun GAO()   

  1. College of Chemical Engineering, North China University of Science and Technology, Tangshan 063210, Hebei, China
  • Received:2020-08-17 Revised:2020-09-03 Online:2020-12-05 Published:2020-12-02
  • Contact: Yun GAO E-mail:1799047518@qq.com;gaoyun@ncst.edu.cn

摘要:

电解质是电化学能量存储(EES)设备的重要组成部分之一,在器件性能上起着决定性作用。在种类繁多的电解质中,water-in-salt(WIS)电解液凭借独特的溶剂配位能力将水溶液的电化学稳定窗口拓宽到了3.0 V以上,同时具备水系电解液安全、低成本以及绿色环保等优势,未来发展前景十分广阔。综述了国内外关于WIS电解液的最新研究进展,主要从电解质盐、电解质添加剂、WIS电解液在电化学上的应用及面临的问题与挑战四个方面进行了介绍。针对电解质盐着重描述了其中基于磺酰亚胺的几种常见氟化盐和乙酸钾、乙酸钠及乙酸锂等乙酸盐,分析了通过以单一盐或多盐形式配制的WIS电解液对超级电容器和电池的电化学性能的影响。对于引入的电解质添加剂,主要是包括乙腈(AN)、碳酸二甲酯(DMC)及碳酸丙烯酯(PC)等有机溶剂,简单介绍了离子液体和羧甲基纤维素(CMC)作为助溶剂对电极材料性能的提升。WIS电解液的应用主要围绕在一些常规电解质中无法使用或者性能较差的电极材料,还有其衍生出来的solvent-in-salt体系进行说明。最后,提出了目前WIS电解液面临的问题与挑战以及此类电解液的研究方向。

关键词: 电解液, water-in-salt, 超级电容器, 电池, 电化学性能

Abstract:

Electrolyte is an important part of electrochemical energy storage (EES) equipment that plays a decisive role in device performance. Among a wide variety of electrolytes, water-in-salt (WIS) electrolyte has expanded the electrochemical window of an aqueous solution to above 3.0 V by the virtue of its unique solvent coordination ability. WIS has the advantages of aqueous electrolytes safety, low cost, and environmental protection which is very promising in future applications. The latest research of WIS electrolytes was reviewed here and abroad, including electrolyte salts, electrolyte additives, the application of WIS electrolytes in electrochemistry, and its problems and challenges. For the electrolyte salts, several common fluorides based on sulfonimide and acetate such as potassium acetate, sodium acetate, and lithium acetate are described. The influence of WIS electrolyte prepared in the form of single or multiple salts on the electrochemical performance of capacitors and batteries has been analyzed. The electrolyte additives mainly include acetonitrile (AN), dimethyl carbonate (DMC), propylene carbonate, and other organic solvents, and introduce ionic liquids and carboxymethyl cellulose (CMC) as a cosolvent to improve the performance of electrode materials. The application of WIS electrolyte focuses on the electrode materials which cannot be used in conventional electrolytes or with poor performance, and in the derived solvent-in-salt system. Finally, the current problems and challenges faced by WIS electrolyte and the research directions of this electrolyte are proposed.

Key words: electrolyte, water-in-salt, supercapacitor, battery, electrochemical performance

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