电解液工程助力可持续 NH4+ 离子电池

A Sustainable NH Ion Battery by Electrolyte Engineering.

机构信息

Materials Science and Engineering, Physical Science and Engineering Division, King Abdullah University of Science and Technology (KAUST), Thuwal, 23955-6900, Saudi Arabia.

Department of Applied Physics, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong, 999077, P. R. China.

出版信息

Angew Chem Int Ed Engl. 2022 Dec 19;61(51):e202213757. doi: 10.1002/anie.202213757. Epub 2022 Nov 22.

DOI:10.1002/anie.202213757

PMID:36287573

Abstract

Aqueous ammonium ion battery is a promising sustainable energy storage system. However, the side reactions originating from electrolytes (the water decomposition and host material dissolution) preclude its practical applications. Unlike the metal-based aqueous batteries, the idea of "ultrahigh concentrated electrolyte" is not feasible due to the strong hydrolysis of ammonium ions. Therefore, we propose an effective and sustainable strategy for the water hydrogen bond network modulation by adding sucrose into the electrolytes. The sucrose can form sucrose-water hydrogen bond networks to break the continuous water hydrogen bond network, thereby inhibiting water decomposition significantly. Moreover, the weak hydrogen bond interaction between ammonium and sucrose facilitates rapid ion migration, leading to an improved ionic conductivity. This work presents a new electrolyte modulating strategy for the practical application of aqueous ammonium ion batteries.

摘要

水合铵离子电池是一种很有前途的可持续能源存储系统。然而，电解质（水分解和主体材料溶解）引发的副反应阻碍了其实际应用。与基于金属的水系电池不同，由于铵离子的强烈水解，“超高浓度电解质”的想法是不可行的。因此，我们通过在电解液中添加蔗糖提出了一种有效且可持续的水氢键网络调制策略。蔗糖可以形成蔗糖-水氢键网络，打破连续的水氢键网络，从而显著抑制水的分解。此外，铵和蔗糖之间的弱氢键相互作用有利于快速离子迁移，从而提高离子电导率。这项工作为水合铵离子电池的实际应用提出了一种新的电解液调制策略。

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电解液工程助力可持续 NH4+ 离子电池

A Sustainable NH Ion Battery by Electrolyte Engineering.

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