Language :
English
中文
张光文
Home
Scientific Research
Research Field
Paper Publications
Patents
Published Books
Research Projects
Teaching Research
Teaching Resources
Teaching Information
Teaching Achievement
Awards and Honours
Enrollment Information
Student Information
My Album
Blog
MOBILE Version
Paper Publications
Current position:
Home
>
Scientific Research
>
Paper Publications
[1]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
[2]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
[3]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
[4]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
[5]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
[6]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
[7]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
[8]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
[9]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
[10]zhangguangwen,heyaqun,冯驿,zhangtao,Wang Haifeng,朱向南.Recovery of residual metals from fine nonmetallic fractions of waste printed circuit boards using a vibrated gas-solid fluidized bed,2018,卷: 207页: 321-328
total19 1/2
first
previous
next
last
Page