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[1]zhangguangwen,jiangtao,heyaqun,Wang Haifeng,yuanxue.Pre-separation combined with reduction roasting for high-quality recovery of graphite and lithium from spent lithium ion batteries,2024,v 187,p244-251
[2]zhangguangwen,刘子孟,袁雪,何亚群,韦能,Wang Haifeng,zhangbo.Recycling of valuable metals from spent cathode material by organic pyrolysis combined with in-situ thermal reduction,2022,卷: 430
[3]zhangguangwen,丁立鑫,袁雪,何亚群,Wang Haifeng,hejingfeng.Recycling of electrode materials from spent lithium-ion battery by pyrolysis-assisted flotation,2021
[4]zhangguangwen,袁雪,何亚群,Wang Haifeng,zhangtao.热解预处理条件下废旧锂电极材料高效解离与浮选强化行为,2021,2021年04期:1058-1065,8
[5]zhangguangwen,袁雪,heyaqun,Wang Haifeng,张涛,xieweining.Recent advances in pretreating technology for recycling valuable metals from spent lithium-ion batteries,2021,卷: 406
[6]zhangguangwen,袁雪,heyaqun,Wang Haifeng,xieweining,张涛.Organics removal combined with in situ thermal-reduction for enhancing the liberation and metallurgy efficiency of LiCoO2 derived from spent lithium-ion batteries,2020,v 115,p113-120
[7]zhangguangwen,袁雪,heyaqun,Wang Haifeng.热解预处理条件下废旧锂电极材料高效解离与浮选强化行为,2020
[8]zhangguangwen,heyaqun,Wang Haifeng,冯驿,xieweining,朱向南.Removal of Organics by Pyrolysis for Enhancing Liberation and Flotation Behavior of Electrode Materials Derived from Spent Lithium-Ion Batteries,2020,v 8,n 5,p2205-2214
[9]zhangguangwen,heyaqun,Wang Haifeng,冯驿,xieweining,朱向南.Application of mechanical crushing combined with pyrolysis-enhanced flotation technology to recover graphite and LiCoO2 from spent lithium-ion batteries,2019,v 231,p1418-1427
[10]zhangguangwen,杜中兴,heyaqun,Wang Haifeng,xieweining,张涛.A Sustainable Process for the Recovery of Anode and Cathode Materials Derived from Spent Lithium-Ion Batteries,2019,卷: 11期: 8
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