Preparation of cobalt oxide from concentrated cathode material of spent lithium ion batteries by hydrometallurgical method

Jingu Kang; Jeongsoo Sohn; Hankwon Chang

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Preparation of cobalt oxide from concentrated cathode material of spent lithium ion batteries by hydrometallurgical method

机译：湿法冶金从废锂离子电池浓缩正极材料制备氧化钴

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Cobalt oxide was prepared from spent lithium ion batteries (LIBs) by reductive leaching, copper sulfide precipitation, cobalt oxalate precipitation and thermal decomposition. The cobalt rich non-magnetic -16 mesh fraction obtained from spent LIBs by mechanical separation was leached using 2 M H2SO4, 6 vol% H2O2, reaction temperature 60°C, agitation speed 300 rpm, pulp density 100g/L, reaction time 1 h. The leaching efficiency of cobalt was more than 99% and its concentration was 27.4 g/L Copper was removed (99.9%) as CuS by precipitating with Na2S. The crystalline solid CoC2O4-2H2O selectively precipitated by treating the copper-free liquor with oxalic acid was calcined to produce crystalline Co3O4, of which primary average particle size was 340 nm.

机译：氧化钴由废锂离子电池（LIB）还原浸出，硫化铜沉淀，草酸钴沉淀和热分解制得。使用2 M H2SO4、6 vol％H2O2，反应温度60°C，搅拌速度300 rpm，纸浆密度100g / L，反应时间1 h浸提通过废液分离得到的废LIB所得的富钴非磁性-16目筛分。钴的浸出效率超过99％，其浓度为27.4 g / L。通过用Na2S沉淀除去作为CuS的铜（99.9％）。煅烧通过用草酸处理无铜溶液而选择性沉淀的结晶固体CoC2O4-2H2O，以产生结晶Co3O4，其平均粒径为340 nm。

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《Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan》 |2010年第2期|共5页
作者
Jingu Kang; Jeongsoo Sohn; Hankwon Chang;
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正文语种 eng
中图分类粉末技术;
关键词
Spent Li-ion battery; Reductive leaching; Oxalate precipitation; Cobalt oxide;

机译：废锂离子电池;还原浸出;草酸盐沉淀;氧化钴;
入库时间 2022-08-18 09:52:36

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1. Preparation of cobalt oxide from concentrated cathode material of spent lithium ion batteries by hydrometallurgical method [J] . Jingu Kang, Jeongsoo Sohn, Hankwon Chang Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan . 2010,第2期

机译：湿法冶金从废锂离子电池浓缩正极材料制备氧化钴
2. Preparation of Regenerated Cathode Material Lithium Nickel Cobalt Oxide LiNi_(0.7)Co_(0.3)O_2 Form Spent Lithium-Ion Battery [J] . Yue Hua Wang, Li Wen Ma, Yun He Zhang, Materials science forum . 2019,第PTa2期

机译：再生阴极材料锂镍钴氧化物LiNi_（0.7）Co_（0.3）O_2废锂离子电池的制备
3. Recovery of Lithium Cobalt Oxide Material from the Cathode of Spent Lithium-Ion Batteries [J] . Zheming Zhang, Wenzhi He, Guangming Li ECS Electrochemistry Letters . 2014,第6期

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4. Synthesis and characterization of chromium oxides and cobalt doped chromium oxides as cathode materials for lithium batteries [C] . Branko N.Popov, Dong Zhang, Pankaj Arora, Symposium on lithium battery;Electrochemical Society fall meeting . 1999

机译：锂电池正极材料三氧化二铬和钴掺杂三氧化二铬的合成与表征
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7. Preparation of Cathode Materials for Lithium Batteries by Melt Impregnation Method III. Preparation of Lithium-Manganese Composite Oxide, Li_0.33MnO₂, as a 3V Cathode Material [O] . Masaki YOSHIO, Hideyuki NOGUCHI, Hiroyoshi NAKAMURA, 1996

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Preparation of cobalt oxide from concentrated cathode material of spent lithium ion batteries by hydrometallurgical method

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