Issue 9, 2023

A comprehensive review of carbon anode materials for potassium-ion batteries based on specific optimization strategies

Abstract

Carbonaceous materials have been regarded as promising anodes for potassium-ion batteries (PIBs) due to their low cost and good conductivity. However, the larger size of K+ will unavoidably cause the electrode structure to collapse upon repeated insertion/extraction, and meanwhile encounters slow diffusion kinetics, thus resulting in fast capacity decay and poor rate. To solve these issues, heteroatom-doping and pore-structure engineering have been proved to be effective in increasing defects, expanding the interlayer spacing, accelerating ion migration, and accommodating volume fluctuation, etc., and as a result the capacity, rate, and cyclability are greatly improved. Besides, electrolyte/binder optimization and electrode composition design are conducive to forming a stable and uniform solid electrolyte interphase layer, which favors ion diffusion and interfacial stability, thereby leading to enhanced rate and cyclability. Despite this, a systematic conclusion on the effect of these optimization strategies on potassium storage is still lacking, and has rarely been reported so far. Hence, this work mainly focuses on the discussion of the mechanism behind the improved potassium storage properties, starting from the structure–performance relationship based on the abovementioned strategies. The perspectives on development of carbon anodes to enable their further application in PIBs are also provided.

Graphical abstract: A comprehensive review of carbon anode materials for potassium-ion batteries based on specific optimization strategies

Article information

Article type
Review Article
Submitted
18 جمادى الثانية 1444
Accepted
17 شعبان 1444
First published
23 شعبان 1444

Inorg. Chem. Front., 2023,10, 2547-2573

A comprehensive review of carbon anode materials for potassium-ion batteries based on specific optimization strategies

F. Yuan, Y. Li, D. Zhang, Z. Li, H. Wang, B. Wang, Y. Wu and Y. A. Wu, Inorg. Chem. Front., 2023, 10, 2547 DOI: 10.1039/D3QI00056G

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