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溶胶凝胶法合成富锂正极材料Li[Li_(0.2)Ni_(0.2)Mn_(0.6)]O_2及性能表征 被引量:5

Characterization of Li-Rich Cathode Material Li[Li_(0.2)Ni_(0.2)Mn_(0.6)]O_2 Synthesized by Sol-Gel Method for Lithium-Ion Batteries
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摘要 以LiOH·H2O、Mn(CH3COO)2·4H2O和Ni(CH3COO)2·4H20为原料,分别用柠檬酸(CA)与乙二胺四乙酸(EDTA)为配位剂,采用溶胶凝胶法结合固相烧结法制备富锂固溶体正极材料Li[Li0.2Ni0.2Mn0.6dO2。通过X射线衍射(XRD)、扫描电子显微镜(SEM)、激光粒度仪对所得样品的结构、形貌、粒径分布进行了表征,并测试了材料的电化学性能。采用CA配位制备的材料的电化学性能优于用EDTA配位制备的材料的电化学性能,室温下以18mA·g-1的电流密度,在2.0—4.8V电压范围内充放电,用CA制备的材料首次充电比容量高达324mAh·g-1,首次库伦效率达82%;在180mA·g-1的电流下,其可逆比容量保持在120mAh·g-1。 Li-rich solid solution cathode material Li[Lio2Ni02Mn06]O2 was synthesized by a sol-gel method and subsequent solid-state sintering process, using LiOH'HzO, Mn(CH3COO)2.4H20 and H3COO)2.4H20 as raw materials, and citric acid (CA) and ethylene diamine tetraacetic acid (EDTA) as chelating agents, respectively. The as-synthesized materials were characterized by X-ray diffraction, scanning electron microscope and Laser Particle Size Analyzer, and the electrochemical properties of materials were investigated. The material using CA as chelating agent showed higher capacity and better rate performance than that using EDTA as chelating agent. The half-cell of Li/Li[Li0.2Ni0.2Mn0.6]O2 using CA as chelating agent delivered a charge specific capacity of 324 mAh'g-1 with an initial efficiency of 82% at a current density of 18 mA.g-1 between 2.0 and 4.8 V, and retained the reversible capacity of 120 mAh.g-1 even at a high current density of 180 mA.g-1.
作者 赵雪玲 唐道平 麦永津 赵欣悦 王素清 张灵志
机构地区 中国科学院广州能源研究所 中国科学院大学
出处 《无机化学学报》 SCIE CAS CSCD 北大核心 2013年第5期1013-1018,共6页 Chinese Journal of Inorganic Chemistry
基金 国家自然科学基金(No.50973112) 中国科学院院地合作项目(No.2009B091300025/20108) 中国科学院百人计划 广州市科技计划(No.11A44061500)资助项目
关键词 锂离子电池 溶胶凝胶法 配位剂 固溶体 正极材料 lithium ion battery sol-gel method chelating agent solid solution cathode material
分类号 O614.111 [理学—无机化学] TM911 [电气工程—电力电子与电力传动]
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同被引文献47

  • 1余桂郁,杨南如.溶胶-凝胶法简介 第三讲 溶胶-凝胶法工艺过程[J].硅酸盐通报,1993,12(6):60-66. 被引量:72
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  • 5Singh G, Thomas R, Kumar A,et al. Electrochemical and structural investigations on ZnO treated 0. 5 Li2MnO3 .0. 5LiMno.s Ni0.5 02 layered composite cathode material for lithium ion battery [ J ] . J Electrochem Soc,2012,159 (4) : A470 - A478.
  • 6Yu C,Li G S,Guan X F. Composites Li1 +xMno. 5+0.5xNio. 5-0.5xO2 (0. 1≤x ≤0. 4 ) : optimized preparation to yield an excellent cycling performance as cathode for lithium-ion batteries [ J ]. Electro- chim Acta,2012,61:216 - 224.
  • 7Lin J,Mu D B,Jin Y,et al. Li-rich layered composite Li[ Li0. 2 Ni0.2 Mn0. 6 ] O2 synthesized by a novel approach as cathode material for lithium ion battery [ J ]. J Power Sources ,2013,230:76 - 80.
  • 8Mitsuharu Tabuchi,Yoko Nabeshima,Kazuaki Ado,Masahiro Shikano,Hiroyuki Kageyama,Kuniaki Tatsumi.Material design concept for Fe-substituted Li 2 MnO 3 -based positive electrodes[J]. Journal of Power Sources . 2007 (2)
  • 9Yoojin Kim,Youngsik Hong,Min Gyu Kim,Jaephil Cho.Li 0.93 [Li 0.21 Co 0.28 Mn 0.51 ]O 2 nanoparticles for lithium battery cathode material made by cationic exchange from K-birnessite[J]. Electrochemistry Communications . 2006 (5)
  • 10Aidong Tang,Kelong Huang.Structure and electrochemical properties of Li 1+ y Ni 0.5 Al x Mn 0.5? x O 2 synthesized by a new sol–gel method[J]. Materials Chemistry and Physics . 2005 (1)

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无机化学学报
2013年 第5期

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