Hard carbon composites as high performance anode materials for alkali metal ion batteries: Advances and perspectives

IF 4.3 2区工程技术 Q2 ENGINEERING, CHEMICAL

Chemical Engineering Science Pub Date : 2025-09-30 DOI:10.1016/j.ces.2025.122712

Yafei Zhang, Yu Cheng, Jiachang Zhao

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Abstract

The study of anode materials for batteries is one of the key directions in the field of battery technology. Hard carbon (HC) materials are rich in defects, disordered internal crystal arrangement with large interlayer spacing, abundant pore structure and high specific capacity, making them excellent anode materials for batteries, However, HC anode materials also face challenges such as low initial Coulombic efficiency (ICE), poor rate capability and poor cyclic stability. Composites can improve the energy density, rate capability, and cyclic life of batteries. This review investigates the application of HC composites as anode materials for alkali metal ion batteries, revealing their ability to enhance the electrochemical performance of HC composites. This paper summarizes the preparation and the electrochemical performance of the composite of HC and soft carbon (SC) materials, HC and non-metallic materials, HC and metal materials, HC and metal compound composite, and highlights the preparation, structural features and electrochemical performance of HC composites used in lithium-ion batteries (LIBs), sodium-ion batteries (SIBs), and potassium-ion batteries (PIBs). Research has found that single materials often have performance bottlenecks. Through compositing HC with other materials, in some cases other materials can improve the performance of HC, whereas in others, HC mitigates the limitations of the partner materials. The main objective of this review is to summarize the research progress and challenges of HC composites as anode for alkali metal ion batteries, which will help the development of high-performance batteries in the future.

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硬碳复合材料作为碱金属离子电池的高性能负极材料：进展与展望

电池负极材料的研究是电池技术领域的重点方向之一。硬碳（HC）材料缺陷丰富、内部晶体排列无序、层间距大、孔隙结构丰富、比容量高，是电池极好的负极材料，但HC负极材料也面临初始库仑效率（ICE）低、倍率能力差、循环稳定性差等挑战。复合材料可以提高电池的能量密度、倍率性能和循环寿命。本文综述了HC复合材料作为碱金属离子电池负极材料的应用，揭示了其提高HC复合材料电化学性能的能力。综述了HC与软碳（SC）材料、HC与非金属材料、HC与金属材料、HC与金属化合物复合材料的制备及其电化学性能，重点介绍了HC复合材料在锂离子电池（LIBs）、钠离子电池（SIBs）和钾离子电池（PIBs）中的制备、结构特点和电化学性能。研究发现，单一材料往往存在性能瓶颈。通过将HC与其他材料复合，在某些情况下，其他材料可以提高HC的性能，而在其他情况下，HC减轻了伙伴材料的局限性。本文综述了HC复合材料作为碱金属离子电池负极材料的研究进展和面临的挑战，为今后高性能电池的发展提供参考。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chemical Engineering Science 工程技术-工程：化工

CiteScore

7.50

自引率

8.50%

发文量

1025

审稿时长

50 days

期刊介绍： Chemical engineering enables the transformation of natural resources and energy into useful products for society. It draws on and applies natural sciences, mathematics and economics, and has developed fundamental engineering science that underpins the discipline. Chemical Engineering Science (CES) has been publishing papers on the fundamentals of chemical engineering since 1951. CES is the platform where the most significant advances in the discipline have ever since been published. Chemical Engineering Science has accompanied and sustained chemical engineering through its development into the vibrant and broad scientific discipline it is today.