Electrochemical Performance and ex situ Analysis of ZnMn2O4 Nanowires as Anode Materials for Lithium Rechargeable Batteries 被引量：7

Electrochemical Performance and ex situ Analysis of ZnMn2O4 Nanowires as Anode Materials for Lithium Rechargeable Batteries

原文传递

导出

摘要一个维的 ZnMn2O4 nanowires 在李作为阳极材料被准备了并且调查可充电的电池。在宽度的大约 15 nm 和在长度的 500 nm 显示出的高度水晶的 ZnMn2O4 nanowires 大约 650 mAh 獲獥 ? 的一个高特定的能力 ? 肐? 肐? One-dimensional ZnMn2O4 nanowires have been prepared and investigated as anode materials in Li rechargeable batteries. The highly crystalline ZnMn2O4 nanowires about 15 nm in width and 500 nm in length showed a high specific capacity of about 650 mAh.g-1 at a current rate of 100 mA.g-1 after 40 cycles. They also exhibited high power capability at elevated current rates, i.e., 450 and 350 mAh.g 1 at current rates of 500 and 1000 mA.g 1, respectively. Formation of Mn3O4 and ZnO phases was identified by ex situ X-ray diffraction （XRD） and transmission electron microscopy （TEM） studies after the initial discharge-charge cycle, which indicates that the ZnMn2O4 phase was converted to a nanocomposite of Mn3O4 and ZnO phases immediately after the electrochemical conversion reaction.

作者 Sung-Wook Kim Hyun-Wook Lee Pandurangan Muralidharan Dong-Hwa Seo Won-Sub Yoon Do Kyung Kim Kisuk Kang

机构地区 Research Institute of Advanced Materials Department of Materials Science and Engineering Department of Materials Science and Engineering Department of Materials Science and Engineering

出处《Nano Research》 SCIE EI CAS CSCD 2011年第5期505-510,共6页 纳米研究（英文版）

关键词电化学性能负极材料纳米线锂离子电池可充电锂电池透射电子显微镜四氧化三锰 X射线衍射 Energy storage, lithium rechargeable battery, anode, ZnMn204, nanowire

分类号 TQ137.12 [化学工程—无机化工] TG139.7 [一般工业技术—材料科学与工程]

引文网络
相关文献

同被引文献25

1甘雪萍,仵亚婷,胡文彬,汤义武.导电涤纶织物的制备及其性能研究[J].材料工程,2007,35(8):12-16. 被引量：21
2Arai J, Yamaki T, Yamauchi S, et al. Development of a high power lithium secondary battery for hybrid electric vehicles[J]. J. Power Sources, 2005, 146(1/2): 788-792.
3Verbrugge M W, Liu P. Electrochemical characterization of high-power lithium-ion batteries using triangular voltage and current excitation sources[J]. J. Power Sources, 2007, 174(1): 2-8.
4Divya K C, Ostergaard J. Battery energy storage technology for power systems an-overview[J]. Electric Power Systems Research, 2009, 79(4): 511-520.
5Brann P V, Cho J, Pikul J H, et al. High power reehargeable batteries[J]. Current Opinion in Solid State and Materials Science, 2012, 16(3): 186-198.
6Scrosati B, Garehe J. Lithium batteries: Status, prospects and future[J]. Journal of Power Sources, 2010, 195(9): 2419- 2430.
7Taraseon J M, Armand M. Issues and challenges facing rechargeable lithium batteries[J]. Nature, 2001, 414(861): 359-367.
8Yang Y, Zhao Y, Xiao L, et al. Nanocrystalline ZnMn204 as a novel lithium- storage material[J]. Electrochemistry Communications, 2008, 10(8): 1117-1120.
9Deng Y, Tang S, Zhang Q, et al. Controllable synthesis of spinel nano-ZnMn204 via a single source precursor route and its high capacity retention as anode material for lithium ion batteries[J]. Journal of Materials Chemistry, 2011, 21(32): 1987-1995.
10Xiao L, Yang Y, Yin J, et al. Low temperature synthesis of flower-like ZnMn204 superstructures with enhanced electrochemical lithium storage[J]. Journal of Power Sources, 2009, 194(2): 1089-1093.

引证文献7

1王亚蕾,张立新,文俊.CoMn_2O_4新型锂离子电池负极材料的合成与性能研究[J].化工技术与开发,2015,44(1):18-20.
2William McSweeney Hugh Geaney Colm O'Dwyer.Metal-assisted chemical etching of silicon and the behavior of nanoscale silicon materials as Li-ion battery anodes[J].Nano Research,2015,8(5):1395-1442. 被引量：5
3吴晓燕,杨扬,王丹,张春明,何丹农.锂离子电池负极材料AB_2O_4的制备及电化学性能[J].电源技术,2016,40(11):2257-2259. 被引量：1
4Dongdong Zhao,Peng Yu,Lei Wang,Fanfei Sun,Li Zhao,Chungui Tian,Wei Zhou,Honggang Fu.Self-supported Ni6MnO8 3D mesoporous nanosheet arrays with ultrahigh lithium storage properties and conversion mechanism by in-situ XAFS[J].Nano Research,2017,10(1):263-275.
5杜敏芝,田明伟,曲丽君,张坤.多功能柔性二氧化猛/还原氧化石墨烯碳化棉织物的制备及性能研究[J].成都纺织高等专科学校学报,2017,34(2):46-51. 被引量：1
6Peng Yu,Lei Wang,Xu Liu,Hong-Gang Fu,Hai-Tao Yu.CoWO4 nanopaticles wrapped by RGO as high capacity anode material for lithium ion batteries[J].Rare Metals,2017,36(5):411-417. 被引量：3
7冯婷婷,杨俭,代思忆,王俊超,吴孟强.微乳液法制备锂离子电池用ZnMn2O4/Mn3O4亚微米棒及其转化反应机理[J].Transactions of Nonferrous Metals Society of China,2021,31(1):265-276. 被引量：5

二级引证文献15

1Caixia Xu,Qin Hao,Dianyun Zhao.Facile fabrication of a nanoporous Si/Cu composite and its application as a high-performance anode in lithiumion batteries[J].Nano Research,2016,9(4):908-916. 被引量：6
2Dongdong Zhao,Peng Yu,Lei Wang,Fanfei Sun,Li Zhao,Chungui Tian,Wei Zhou,Honggang Fu.Self-supported Ni6MnO8 3D mesoporous nanosheet arrays with ultrahigh lithium storage properties and conversion mechanism by in-situ XAFS[J].Nano Research,2017,10(1):263-275.
3Jaegeon Ryu,Dongki Hong,Hyun-Wook Lee,Soojin Park.Practical considerations of Si-based anodes for lithiumion battery applications[J].Nano Research,2017,10(12):3970-4002. 被引量：6
4Bharat Gattu,Prashanth Hanumantha Jampani,Moni Kanchan Datta,Ramalinga Kuruba,Prashant N. Kumta.Water-soluble-template-derived nanoscale silicon nano- flake and nano-rod morphologies： Stable architectures for lithium-ion battery anodes[J].Nano Research,2017,10(12):4284-4297.
5王飞,柳勇,魏治中,韩雪洋,任凤章.微波辅助法制备钴酸锌纳米花及其储锂性能[J].河南科技大学学报（自然科学版）,2019,40(1):12-18. 被引量：1
6蒋光辉,欧阳全胜,胡敏艺,张淑琼,赵群芳,王嫦.二氧化锰/石墨烯复合材料制备及应用研究进展[J].湖南有色金属,2021,37(4):51-55. 被引量：2
7Zi-Zhong Chen,Jia-Gang Hou,Ji Zhou,Peng Huang,Hai-Qing Wang,Cai-Xia Xu.Carbon shell coated hollow NiCoSe_(x)composite as high-performance anode for lithium storage[J].Rare Metals,2021,40(11):3185-3194. 被引量：6
8陈悦,谭小平,方国赵,梁叔全.二次电池电极材料电化学基础与调控[J].中国有色金属学报,2021,31(11):3232-3253. 被引量：1
9余石金,陈天瑞,朱文珍,童家浩,何璇男,程灵,韦莺,朱华.双金属氧化物的制备及其在环保和能源领域的应用[J].陶瓷学报,2022,43(2):207-220. 被引量：1
10习小明,张君,涂飞跃,杨乐之,封青阁.锂离子电池三维多孔微米硅负极研究进展[J].矿冶工程,2022,42(3):129-133. 被引量：3

1许雪棠,苏海艳,苏玉媚,王惠,白鹏,王凡.尖晶石型ZnMn_2O_4水热合成及光催化性能研究[J].无机盐工业,2017,49(3):70-73. 被引量：6
2冯钒,陈晗.溶胶凝胶法制备锂离子电池负极材料ZnMn_2O_4[J].广东化工,2015,42(8):61-62.
3Yahui Liu,Jingyi Wu,Wei Zhao,Jinglong Chu,Tao Qi.Study on Lithium Insertion in Lepidocrocite and ,λ-MnO2 Type TiO2： A First-Principles Prediction[J].Chinese Journal of Chemistry,2013,31(10):1257-1262. 被引量：2
4Hongxing Pan,Xiaowei Yin.In-Situ Synthesis of Polycrystalline Carbon Nanowires with Excellent Microwave Absorption Performance[J].功能材料信息,2016,13(1):56-57.
5闫国峰,李广社,李莉萍,方海升.Electrochemical Performance of Li_4Ti_5O_(12) Prepared by Different Methods[J].Chinese Journal of Structural Chemistry,2009,28(11):1393-1398. 被引量：1
6李建明.我国锰系材料发展概况[J].中国锰业,1999,17(4):1-3. 被引量：2
7WANG Hongzhi SHI Yulei LI Zixuan ZHANG Weiguo YAO Suwei.Synthesis and Electrochemical Performance of Co3O4/Graphene[J].Chemical Research in Chinese Universities,2014,30(4):650-655.
8刘品,马强,方铮,马洁,胡勇胜,周志彬,李泓,黄学杰,陈立泉.Concentrated dual-salt electrolytes for improving the cycling stability of lithium metal anodes[J].Chinese Physics B,2016,25(7):97-102. 被引量：2
9刘晔,戴长虹,马峻峰,宋祖伟,孙勇,房晶瑞,赵金刚,孙霞,高敞,刘振森.钒酸盐类光催化剂的研究进展[J].硅酸盐通报,2009,28(6):1220-1224. 被引量：8
10伍凌,王志兴,李新海,李灵均,郭华军,郑俊超,王小娟.Electrochemical performance of Ti^(4+)-doped LiFePO_4 synthesized by co-precipitation and post-sintering method[J].Transactions of Nonferrous Metals Society of China,2010,20(5):814-818. 被引量：10

Nano Research

2011年第5期

浏览历史

内容加载中请稍等...

Electrochemical Performance and ex situ Analysis of ZnMn2O4 Nanowires as Anode Materials for Lithium Rechargeable Batteries 被引量：7

同被引文献25

引证文献7

二级引证文献15

相关作者

相关机构

相关主题

浏览历史