秦理,朱树豪,刘洋,侯林瑞,原长洲.铌基氧化物锂离子电容器负极材料研究进展[J].稀有金属材料与工程,2021,50(1):342~348.[Qin Li,Zhu Shuhao,Liu Yang,Hou Linrui,Yuan Changzhou.Recent Progress of Nb-based Oxide Anode Materials towardLithium-ion Capacitors[J].Rare Metal Materials and Engineering,2021,50(1):342~348.]
铌基氧化物锂离子电容器负极材料研究进展
投稿时间:2019-12-27  修订日期:2020-03-04
中文关键词:  铌基氧化物  锂离子电容器  负极材料
基金项目:国家自然科学基金资助(项目号51772131; 51772127)
中文摘要:
      在现有的各类锂离子电容器(LICs)负极材料中,铌基氧化物被认为是很有前景的电极材料。本文以Nb2O5、M-Nb-O(M = Ti, Cr, Ga, Fe, Zr, Mg, Li, Na和K等)和(H, Li, K)-Ti-Nb-O等负极材料为例,介绍了铌基氧化物作为锂离子电容器负极材料的优势、储锂机制和常见的合成方法,并提出了该材料目前存在的问题和相应的解决方案,以促进其在新兴储能器件领域的进一步推广和发展。
Recent Progress of Nb-based Oxide Anode Materials towardLithium-ion Capacitors
英文关键词:Niobium-based oxide  lithium ion capacitors  anode materials
英文摘要:
      Among the existing anode materials for lithium-ion capacitors (LICs), Nb-based oxides are considered as one of the most promising anode materials. This review takes Nb2O5, M-Nb-O (M = Ti, Cr, Ga, Fe, Zr, Mg, Li, Na, K, etc.) and (H, Li, K)-Ti-Nb-O group anode materials as examples, and introduces the advantages of niobium-based oxides as anode materials for LICs, the energy storage mechanism, synthetic methods. Moreover, the existing problems in each material currently and corresponding solutions are proposed, which will promote their further development and applications in the field of emerging energy storage devices.
作者单位E-mail
秦理 济南大学 201821200622@mail.ujn.edu.cn 
朱树豪 济南大学  
刘洋 济南大学  
侯林瑞 济南大学 ym0808@sohu.com 
原长洲 济南大学 ayuancz@163.com 
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