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Thin-film lithium-ion battery derived from Li1.3Al0.3Ti1.7(PO4)3 sintered pellet XIAO Zhuo-bing(肖卓炳), MA Ming-you(麻明友), WU Xian-ming(吴显明), HE Ze-qiang(何则强), CHEN Shang(陈 上) College of Chemistry...; Abstract: Thin-film lithium-ion battery......
Suppression of voltage decay through adjusting tap density of lithium-rich layered oxides for lithium ion batteryMuhammad Zubair,Errui Wang,Yinzhong Wang,Boya Wang,Lin Wang,Yuan Liang,Haijun...">The voltage decay of lithium-rich layered oxides(LLOs) is still one of the key challenges for their application in commercial battery although these materials possess the advantages of high specific......
Facile fabrication of ZnO-CuO porous hybrid microspheres as lithium ion battery anodes with enhanced cyclabilityQing-Shui Xie,Liang Lin,Ya-Ting Ma,Jing-Ren Yang,Jian Huang,Lai-Sen Wang,Dong-Liang... configuration and the incorporation of CuO are responsible for the enhanced lithium storage properties of ZnO–CuO hybrids.关键词:......
Hua-jun, PENG Wen-jie, LIU Feng-ju. Synthesis and performance of LiFe0.9Ni0.1PO4 as cathode material in lithium-ion battery[J]. The Chinese Journal of Nonferrous Metals, 2006, 16 (4): 739?745. [6... of LiFePO4/C composites synthesized at 600 ℃ for 8 h is about 100?500 nm, and it has discharge capacities of 144.2 and 119 mA?h/g at 1 C and 5 C rates, respectively. Key words: LiFePO4/C; lithium ion batteries......
with increasing the sodium dopant amount. Key words: lithium ion battery; cathode; LiMn2O4; sodium; substitutio 1 Introduction Layered LiCoO2 has been widely used in commercial lithium ion... Effects of sodium substitution on properties of LiMn2O4 cathode for lithium ion batteries GUO Hua-jun(郭华军)1, LI Xiang-qun(李向群)2, HE Fang-yong(何方勇)1, LI Xin-hai(李新海)1, WANG Zhi-xing(王志兴......
. It is demonstrated that the composite material has advantages of both the high power density of the supercapacitor and the high energy density of the lithium ion battery. Moreover, the electrochemical...; composite material; lithium ion battery 随着人们环境保护意识的增强及不可再生能源的日益紧张,新能源受到人们越来越多的关注.二次电源中,大量的研究集中于锂离子电池和超级电容器.超级电容器是一种基于电极-溶液界面的电化学过程储能元件,其常用的电板材料为具有大比表面积,孔径结构发达的活性炭(AC)[1-3].一般正负极采用活性炭作为电极活性物质,各自形成一个双电层......
) for lithium-ion battery cathode materials[J]. Trans Nonferrous Met Soc China, 2004, 14(4): 811-816. [8] ZHAO Ming-shu, ZHAI Yu-chun, TIAN Yan-wen. Preparation and characterization of LiMn1.75Me0.25O4 (Me=Ti, Fe, Ni) for lithium-ion battery cathode material[J]. The Chinese Journal of Nonferrous Metals, 2000, 12(4): 733-738.(in Chinese) [9] SUB Y K, OH I H. Cycling behavior of oxysulfide spinel......
material for lithium ion battery was synthesized by microwave heating with Co3O4 and LiOH·H2O as starting materials. The selection of output power and heating time of microwave can markedly affect the purity...; cathode materials; lithium ion battery CLC number: TM910.1 Document code: A 1 INTRODUCTION LiCoO2 is a commercially......
Defect and Performance Analysis of Spinel LiLa0.01Mn1.99O4 Synthesized at Different Temperatures for Lithium Ion Battery伊廷锋,胡信国,霍慧彬摘 要:The spinel LiLa0.01Mn1.99O4 cathode materials were prepared by adipic acid-assisted sol-gel method at 400~900 ℃ in air. The effect of synthesis temperature on defect of LiLa0.01Mn1.99O4 was investigated by using X-ray......
Facile fabrication of core-shell Ni3Se2/Ni nanofoams composites for lithium ion battery anodesZhongren Wang1,Quanbin Gao1,Peng Lv1,Xiuwan Li1,Xinghui Wang2,Baihua Qu31. Fujian Provincial Key... specific surface area, and 3 D interconnected metal conductive network, nanoporous metal foams have attracted a lot of attention in the field of energy conversion and storage, especially lithium-ion......