Pre-intercalation chemistry of electrode materials in aqueous energy storage systems

[Display omitted] •The advantages and drawbacks of pre-intercalating techniques are concluded.•The functions of pre-intercalation in different structures are introduced.•The generality and discrepancy between pre-intercalation in different structures are discussed.•Current challenges and future pers...

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Bibliographic Details
Published in:Coordination chemistry reviews 2022-06, Vol.460, p.214477, Article 214477
Main Authors: Liu, Yiwen, Xu, Jiaxi, Li, Jing, Yang, Zhengwei, Huang, Chengcheng, Yu, Haoxiang, Zhang, Liyuan, Shu, Jie
Format: Article
Language:English
Subjects:
Aqueous rechargeable batteries
Electrode materials
Energy storage systems
Pre-intercalation
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Summary:[Display omitted] •The advantages and drawbacks of pre-intercalating techniques are concluded.•The functions of pre-intercalation in different structures are introduced.•The generality and discrepancy between pre-intercalation in different structures are discussed.•Current challenges and future perspectives are brought up. Pre-intercalation, an interfacial engineering method, is found to be an effective way to stabilize the structure, enhance the ionic conductivity and shield the electrostatic interaction between carriers and electrode materials so as to facilitate the diffusion kinetics in energy storage system. As an alternative for lithium-ion batteries using organic solution as electrolyte, aqueous energy storage systems (AESSs) are becoming potential candidates for grid scale energy storage. However, the inferior conductivity, structural instability of the host materials and the strong electrostatic interaction between charge carriers and lattice lead to sluggish diffusion kinetics, hindering the exploitation of high-performance electrodes. To inspire innovative research directions and build high-performance hosts for AESSs, this review focuses on the functions, methods and applications of pre-intercalation engineering in electrode materials with different structures for AESSs and analyze the challenges that pre-intercalation faces. Besides, the prospect of next-generation pre-intercalated electrode materials is brought up.
ISSN:0010-8545
1873-3840
DOI:10.1016/j.ccr.2022.214477