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锂电池百篇论文点评(2025.6.1-2025.7.31)

张新新詹元杰闫勇贲留斌俞海龙刘燕燕周洪黄学杰岑官骏乔荣涵郝峻丰孙蔷馥郑博文谷宇皓田孟羽金周

储能科学与技术2025，Vol.14Issue(9)：3229-3248,20.

储能科学与技术2025，Vol.14Issue(9)：3229-3248,20.DOI:10.19799/j.cnki.2095-4239.2025.0758

锂电池百篇论文点评(2025.6.1-2025.7.31)

Reviews of selected 100 recent papers for lithium batteries(June 1,2025 to July 31,2025)

张新新 ¹詹元杰 ²闫勇 ²贲留斌 ³俞海龙 ¹刘燕燕 ¹周洪 ⁴黄学杰 ³岑官骏 ¹乔荣涵 ¹郝峻丰 ¹孙蔷馥 ¹郑博文 ¹谷宇皓 ¹田孟羽 ²金周²

作者信息

1. 中国科学院物理研究所,北京 100190
2. 松山湖材料实验室,广东东莞 523890
3. 中国科学院物理研究所,北京 100190||松山湖材料实验室,广东东莞 523890
4. 中国科学院武汉文献情报中心,湖北武汉 430071
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摘要

Abstract

This bimonthly review paper highlights a comprehensive overview of the latest research on lithium batteries.A total of 7666 online papers from June 1,2025,to July 31,2025,were examined through the Web of Science database.Firstly,the BERTopic topic model was used to analyze the abstract text and the research topic map of lithium battery papers was drawn.100 papers were selected for highlighting in this review.The selected studies cover various aspects of lithium batteries.Cathode materials including Ni-rich layered oxides and other novel materials are improved by doping,surface coating,and microstructural modifications.The cycling performances of Si-based anode are enhanced by structural design.Great efforts have been devoted to the interfacial and bulk structure design of lithium metal anode.Studies on solid-state electrolytes focus on the structure design and performances of polymer,oxide,sulfide,and halide electrolytes,as well as their composite forms.In contrast,liquid electrolytes are improved through optimal solvent and lithium salt design for different battery applications and incorporating novel functional additives.For solid-state batteries,the surface coating and synthesis methods of cathodes and the optimization of composite cathodes,interface construction of lithium metal anode,as well as the synthesis of other anode types are widely investigated.In addition,lithium-sulfur and lithium-oxygen batteries have also garnered significant attention.There are also many papers on the ion transport and degradation mechanisms in electrodes,lithium deposition morphology and lithium diffusion pathways in electrolytes,the analysis of thermal runaway of full batteries,the theoretical simulation of void formation and dendrite growth mechanisms at solid electrolyte/lithium interfaces,as well as the application of high-throughput computations and big-data modeling in lithium batteries.

关键词

锂电池/正极材料/负极材料/电解质/电池技术

Key words

lithium batteries/cathode material/anode material/electrolyte/battery technology

分类

能源科技

引用本文复制引用

张新新,詹元杰,闫勇,贲留斌,俞海龙,刘燕燕,周洪,黄学杰,岑官骏,乔荣涵,郝峻丰,孙蔷馥,郑博文,谷宇皓,田孟羽,金周..锂电池百篇论文点评(2025.6.1-2025.7.31)[J].储能科学与技术,2025,14(9):3229-3248,20.

储能科学与技术

OA北大核心

ISSN：2095-4239

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