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S, HARA M, WATANABE K, ABE T. Phase transition and electrochemical capacitance of mechanically treated manganese oxides[J]. Journal of Alloys and Compounds, 2006, 414(1/2): 137-141. [5] PRASAD K R, MIURA N. Potentiodynamically deposited nanostructured manganese dioxide as electrode material for electrochemical redox supercapacitors[J]. Journal of Power Sources, 2004, 135: 354-360. [6] QU D Y......
of charge voltage limit, and a specific discharge capacity of 175.2mA·h/g is obtained when the charge voltage limit is fixed at 4.45V. Key words: lithium ion battery; LiNi0.45Co0.10Mn0.45O2; cathode...]. LiCoO2 has been widely used as a cathode material in commercial lithium ion battery because it is reasonable easy to synthesize and shows a stable discharge capacity[3]. But due to its high cost......
vanadium oxides (LVO) and vanadium dioxide (VO2) as thermal battery cathode material [A]. Attewell A, Keily T. Power Sources 15. Research and Development in Non-Mechanical Electrical Power Sources. The 19th... and scanning electron microscope(SEM). The positive electrode discharge performances of Li-B/LiCl-KCl/VO2 thermal battery at 500 ℃ were studied. The results show that the product is mainly non-crystal......
and 1C charge/discharge rate. Therefore, as a new salt, LiODFB is a most promising alternative lithium salt to replace LiPF6 for lithium ion battery electrolytes in the future. Key words: lithium ion battery; electrolyte; lithium difluoro(axalato)borate; synthesis; electrochemical properties  ......
; Abstract: A prismatic 204056-type high power lithium-ion battery was developed. Modified LiMn2O4 and carbonaceous mesophase sphere... after discharge affects the cycle performance distinctly when the battery is discharged at high rate. Key words: lithium ion batteries; LiMn2O4; electrochemical property; rate capability  ......
the particle size and the exposed facets of nanocrystals. Key words: titanium dioxide; nanocrystal; exposed facet; lithium-ion battery Cite this article as: DU De-jian, DU Yi-en, YUE Wen-bo, YANG Xiao.../10.1007/s11771-019-4109-4. 1 Introduction As a popular n-type semiconductor electrode material, titanium dioxide (TiO2) has been potentially applied in solar cells, sensors, sodium- ion batteries and lithium-ion......
for a lithium secondary battery [J]. Solid State Ionics, 2001, 139: 57-65. [4] Yang J, Takeda Y, Imanishi N, Xie J Y, Yamamoto O. Morphology modification and irreverisibility compensation for SnO anodes [J...: 113-120. [6] Belliard F, Irvine T S. Electrochemical performance of ball-milled ZnO-SnO2 systems as anodes in lithium-ion battery [J]. Journal of Power Sources, 2001, 97/98: 219-222. [7] WANG G X......
performance with an initial discharge capacity of 144.8 mA?h/g and a capacity retention ratio of 94.27% after 13 cycles. Key words: lithium ion battery; cathode; Li2FeSiO4 lithium batteries [J]. J Electrochem Soc, 1997, 144: 1188-1194. [2] PROSINI P P. LiFePO4 for lithium battery cathodes [J]. J......
modification of natural graphite by SiO2 is effective for improving the electrochemical performance of the natural graphite anode for lithium ion batteries. Key words: lithium ion battery; silicon dioxide... capacities of amorphous carbon materials for lithium ion battery anodes by Li2CO3 addition [J]. Carbon, 2004, 42(4): 837-838. [4] MEGAHED S, SCROSATI B. Lithium-ion rechargeable batteries [J]. J Power......
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