Antimony-based materials as promising anodes for rechargeable lithium-ion and sodium- ion batteries

Jun He; Yaqing Wei; Tianyou Zhai

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Antimony-based materials as promising anodes for rechargeable lithium-ion and sodium- ion batteries

机译：Antimony-based作为有前途的阳极材料可充电的锂离子和钠离子电池

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摘要

Antimony (Sb) shows high conductivity and reactivity not only with lithium ions, but also with sodium ions due to its unique puckered layer structure; also, it can deliver a high theoretical capacity of 660 mA h g~(-1) by forming Li3Sb or Na3Sb. Compared with graphite, Sb has much higher theoretical capacity and safer reaction potential; moreover, it has a simpler reaction process and smaller volume changes than Si, Ge and Sn. In this study, the recent progress of Sb-based materials including elemental Sb nano-structures, intermetallic Sb alloys and Sb chalcogenides for lithium-ion and sodium-ion batteries are introduced in detail along with their electrode mechanisms, synthesis, design strategies and electrochemical performance. This review aims to present a full scope of the structures and properties of Sb-based materials and highlight effective strategies to design high performance Sb-based anode materials in the field of rechargeable Li/Na ion batteries.

机译：锑(某人)显示高导电性和反应性不仅与锂离子,但也与钠离子由于其独特的皱层结构;理论容量660毫安h g ~ (1)形成Li3Sb或Na3Sb。某人有更高的理论能力和安全反应的潜力;反应过程比和较小的体积变化如果,通用电气和Sn。负极材料包括元素纳米结构,金属间化合物合金和某人的话硫属化合物锂和钠详细介绍了电池电极机制、合成设计策略和电化学性能。审查的目的是提出一个完整的范围负极材料的结构和性能并强调有效的策略来设计高性能负极阳极材料李充电/钠离子电池。

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来源
《Materials Chemistry Frontiers》 |2018年第3期|437-455|共19页
作者
Jun He; Yaqing Wei; Tianyou Zhai;
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作者单位

State Key Laboratory of Material Processing and Die & Mould Technology, School of Materials Science and Engineering, Huazhong University of Science and Technology (HUST), Wuhan 430074, Hubei, P. R. China.;

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原文格式 PDF
正文语种英语
中图分类 Online;
关键词
Tin; Batteries; AnodesLithiumGermanium silicon alloysIonsantimonytheoretical capacityVolume changesSodium Cationhigh conductivity;

机译：Tin Batteries;AnodesLithiumGermanium (siliconalloysIonsantimonytheoretical capacityVolumechangesSodium Cationhigh电导率;

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Antimony-based materials as promising anodes for rechargeable lithium-ion and sodium- ion batteries

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