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. Hydrometallurgical separation of aluminium, cobalt, copper and lithium from spent Li-ion batteries[J]. Journal of Power Sources, 2009, 187(1): 238-246. [5] PAULINO J F, BUSNARDO N G, AFONSO J C. Recovery... the cathode active materials of the lithium-ion secondary batteries[J]. Hydrometallurgy, 2009, 99(3/4): 194-201. [7] DORELLA G, MANSUR M B. A study of the separation of cobalt from spent Li-ion battery......
materials, the key parts in the Li-ion batteries, LiFePO4 cathode material with a structure of olivine-type might meet the requirements above[2-6]. For LiFePO4, the key barriers limiting its... Lett, 2001, 4(10): A170-A172. [6] GUERFI A, KANEKO M, PETITCLERC M, et al. LiFePO4 water-soluble binder electrode for Li-ion batteries[J]. J Power Sources, 2007, 163(2): 1047-1052. [7] HU Guo-rong......
. Electrochemical study of Li4Ti5O12 as negative electrode for Li-ion polymer rechargeable batteries[J]. Journal of Power Source, 1999, 81: 300-305. [4] STASHANS A, LUNELL S, BERGSTROM R, HAGFELDT... on active materials for Li-ion batteries[J]. Journal of the European Ceramic Society, 2007, 27(2/3): 909-913. [9] HUANG S H, WEN Z Y, ZHANG J C, YANG X L. Improving the electrochemical performance......
area of the modified graphite increases. According to the electrochemical measurements of Li/C cell and prototype Li-ion batteries, the Li-doped graphite has large reversible capacity of 312.2 mA·h/g...Effect of lithium or aluminum substitution on the characteristics of graphite for anode of lithium ion batteriesGUO Huajun, LI Xinhai, WANG Zhixing, PENG Wenjie, and GUO YongxingCollege......
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of their higher energy density, longer cycle life and higher operational voltage. Separators used in commercial Li-ion batteries are nearly exclusively semi-crystalline polyolefine membranes, including polyethylene... microporous stretched membrane for lithium rechargeable battery [J]. Journal of Power Sources, 2006, 163(1): 247-251. [11] ZHANG S S. A review on the separators of liquid electrolyte Li-ion batteries [J......
-rate use[J]. Advanced Materials, 2005, 17: 2857-2860. [8] LI Huiqiao, ZHOU Haoshen. Enhancing the performance of li-ion batteries by carbon-coating: present and future[J]. Chemical Communications...% of that at 0.1C. The capacity keeps 91.6% even after 50 cycles at 1C. Compared to natural spherical graphite, it has a larger lithium ion diffusion coefficient. Key words: Li-ion battery; pitch; composite......
. (in Chinese) [12] GUO Z P, WANG J Z, LIU H K, DOU S X. Study of silicon/polypyrrole composite as anode materials for Li-ion batteries [J]. J Power Sources, 2005, 146(1/2): 448-451. [13] DU PASQUIER... B. Study of polypyrrole graphite composite as anode material for secondary lithium-ion batteries [J]. J Power Sources, 2002, 109(2): 377-387. [15] HE Ze-qiang, LIU Wen-ping, XIONG Li-zhi, SHU Hui, WU......
, 1997, 276: 1395-1397. [4] LI Xin, QI Shi-han, ZHANG Wen-chao, FENG Yue-zhan, MA Jian-min. Recent progress on FeS2 as anodes for metal-ion batteries [J]. Rare Metals, 2020, 39: 1239-1255. [5] XU Chen...-guo, CHEN Li-bao, WANG Tai-hong. Electrospun porous SnO2 nanotubes as high capacity anode materials for lithium ion batteries [J]. Electrochemistry Communications, 2010, 12: 1383-1386. [13] TAN Hao......
D D, DAHN J R. Layered cathode materials Li[NixLi(1/3-2x/3)Mn(2/3-x/3)]O2 for lithium-ion batteries [J]. Electro- chem Solid State Lett, 2001, 4(11): A191-A194. [3] SHAJU K M, RAO G V S, CHOWDARI B V.... Layered Li(Ni0.5-xMn0.5-xM’2x)O2(M’=Co, Al, Ti; x=0, 0.025) cathode materials for Li-ion rechargeable batteries [J]. J Power Sources, 2002, 112: 41-48. [10] LU Z H, BEAULIEU L Y, DONABERGER R A, THOMAS......