论文论著:
38. Ji, S; Zhang, A; Hua, W; Yan, S; Chen, X*. Regeneration of graphite from spent lithium‐ion batteries as anode materials through stepwise purification and mild temperature restoration. Battery Energy 2024. (IF=9.0, Invited paper)
37. Zhu, C; Li, F; Ji, S; Li Z; Chen, X*. Application of ion-exchange fibers towards the chromatographic separation of valuable metals of Ni, Co, Ce, La and Nd from spent nickel-metal hydride batteries. Separation and Purification Technology 2024, 340: 126573. (IF2022=8.6, JCR Q1)
36. Yan, S; Chen, X*, Yang Y; Zhou, T. Peroxymonosulfate activation by N-doped 3D graphene from spent lithium-ion batteries for organic pollutants degradation: An insight into the degradation mechanism. Chemical Engineering Journal 2024, 484:149379. (IF2022=15.1, JCR Q1)
35. Chen, X.; Hua, W.; Yuan, L.*; Ji, S.; Wang, S.*; Yan, S. Evolution fate of battery chemistry during efficient discharging processing of spent lithium-ion batteries. Waste Manage. 2023, Accept. (IF2022=8.1, JCR Q1)
34. Yan, S.; Ou, Y.; Li, X.*; Yuan, L.; Chen, X.*; Zhou, T.* In-situ recycling of Al foil and cathode materials from spent lithium-ion batteries through exogenous advanced oxidation. Sep. Purif. Technol. 2023, 326, 124788. (IF2022=8.6, JCR Q1)
33. Chen, X.; Yuan, L.; Yan, S.*; Ma, X.* Self-activation of Ferro-chemistry based advanced oxidation process towards in-situ recycling of spent LiFePO4 batteries. Chem. Eng. J. 2023, 471, 144343. (IF2021=16.744, JCR Q1)
32. Ou, Y.; Yan, S.; Yuan, L.; Chen,X.*; Zhou, T.* Novel strategy towards in-situ recycling of valuable metals from spent lithium-ion batteries through endogenous advanced oxidation process. J. Hazard. Mater. 2023, 457, 131818. (IF2021=14.224, JCR Q1)
31. Qi, Y.; Wang, M.; Yuan, L.*; Chen, X.* Closed-loop recycling of valuable metals from spent LiCoO2 batteries through phosphate-chemistry-based process. Chem. Eng. J. 2023, 466, 143030. (IF2021=16.744, JCR Q1)
30. Yan, S.; Jiang, Y.; Chen, X.*; Min, T.; Yuan, L.*; Ou, Y.; Liu, H.; Cao, Y.; Zhou, T.* Engineering the classification recycling of spent lithium-ion batteries through pretreatment: A comprehensive review from laboratory to scale-up application. Rare Metals 2023, Accept. (Invited review, IF2021=6.318, JCR Q1)
29. Chen, X.; Liu, S.; Luo, Y.* Spatiotemporal distribution and probabilistic health risk assessment of arsenic in drinking water and wheat in Northwest China. Ecotox. Environ. Safe. 2023, 256, 114880. (IF2021=7.129, JCR Q1)
28. Yang, Y.; Zhu, C.; Wang, H.; Hao, Y.; Yan, L.; Zhang, Z.; Yan, H.; Chen, X.*; Ma, H.* Synergistic immobilization of Cr from real tannery sludge by formation of spinel phases with TiO2 and ZnO. J. Environ. Chem. Eng. 2022, 10, 108679. (IF2021=7.968, JCR Q1)
27. Chen, X.; Wang, Y.; Yuan, L.; Wang, S.*; Yan, S.; Liu, H.; Xu, J.* Microthermal catalytic aerogenesis of renewable biomass waste using cathode materials from spent lithium-ion batteries towards reversed regulated conversion and recycling of valuable metals. Green Chem. 2023, 25, 1559-1570. (IF2021=11.034, JCR Q1)
26. Jiang, Y.; Chen, X.*; Yan, S.; Ou, Y. and Zhou, T.* Mechanochemistry-induced Recycling of Spent Lithium-ion Batteries for Synergistic Treatment of Mixed Cathode Powders. Green Chem. 2023, 25, 1559-1570. (IF2021=11.034, JCR Q1)
25. Yan, S.; Jiang, Y.; Chen, X.* and Zhou, T.* Improved Advanced Oxidation Process for In-situ Recycling of Al Foils and Cathode Materials from Spent Lithium-ion Batteries. Ind. Eng. Chem. Res. 2022, 61, 12728-12738. (IF2021=4.326, JCR Q1, Front Cover)
24. Chen, X.*; Wang, Y.; Li, S.; Jiang, Y.; Ma, X.* Selective recycling of valuable metals from waste LiCoO2 cathode material of spent lithium-ion batteries through low-temperature thermochemistry. Chem. Eng. J. 2022, 434, 134542. (IF2021=16.744, JCR Q1, ESI 1%)
23. Zhang, Y.; Li, X.; Chen, X.*; Koivula, R.; Xu, J.* Tunnel manganese oxides prepared using recovered LiMn2O4 from spent lithium-ion batteries: Co adsorption behavior and mechanism. J. Hazard. Mater. 2022, 425, 127957. (IF2021=14.224, JCR Q1)
22. Li, S.; Wu, X.; Jiang, Y.; Zhou, T.; Chen, X.* Novel electrochemically-driven and internal circulation process for valuable metals recycling from spent lithium-ion batteries. Waste Manage. 2021, 136, 18-27. (IF2021=8.816, JCR Q1)
21. Chen, X.*; Li, S., Wang, Y.; Jiang, Y.; Tan, X.; Han, W.; Wang, S.* Recycling of LiFePO4 cathode materials from spent lithium-ion batteries through ultrasound-assisted Fenton reaction and lithium compensation. Waste Manage. 2021, 136, 67-75. (IF2021=8.816, JCR Q1)
20. Jiang, Y.; Chen, X.*; Yan, S.; Li, S.; Zhou, T.* Pursuing green and efficient process towards recycling of different metals from spent lithium-ion batteries through Ferro-chemistry. Chem. Eng. J. 2021, 426, 131637. (IF2021=16.744, JCR Q1)
19. Ma H.; Li, X.; Zhu, C.; Chen, F.; Yang, Y.; Chen X.* Liberation and recovery of Cr from real tannery sludge by ultrasound-assisted supercritical water oxidation treatment. J. Clean. Prod. 2020, 267, 122064. (IF2021=11.072, JCR Q1)
18. Chen, X.*; Kang, D.; Li, J.; Zhou T.; Ma H.* Gradient and facile extraction of valuable metals from spent lithium ion batteries for new cathode materials re-fabrication. J. Hazard. Mater. 2020, 389, 121887. (IF2021=14.224, JCR Q1)
17. Chen, X.*; Li, S.; Wu, X.; Zhou, T.; Ma, H.* In-situ recycling of coating materials and Al foils from spent lithium ion batteries by ultrasonic-assisted acid scrubbing. J. Clean. Prod. 2020, 258, 120943. (IF2021=11.072, JCR Q1)
16. Yang, Y.; Ma, H.*; Chen, X.*; Zhu, C.; Li, X. Effect of incineration temperature on chromium speciation in real chromium-rich tannery sludge under air atmosphere. Environ. Res. 2020, 183, 109159. (IF2021=8.431, JCR Q1)
15. Chen, X.*; Li, J.; Kang, D.; Zhou, T.; Ma, H. A novel closed-loop process for the simultaneous recovery of valuable metals and iron from a mixed type of spent lithium-ion batteries. Green Chem. 2019, 21, 6342-6352. (IF2021=11.034, JCR Q1)
14. Chen, X.*; Kang, D.; Cao, L.; Li, J.; Zhou, T.; Ma H.* Separation and recovery of valuable metals from spent lithium ion batteries: Simultaneous recovery of Li and Co in a single step. Sep. Purif. Technol. 2019, 210, 690-697. (IF2021=9.136, JCR Q1, ESI 1%)
13. Chen, X.*; Cao, L.; Kang, D.; Li, J.; Zhou, T.; Ma H.* Recovery of valuable metals from mixed types of spent lithium ion batteries. Part II: Selective extraction of lithium. Waste Manage. 2018, 80, 198-210. (IF2021=8.816, JCR Q1)
12. Chen, X.*; Guo, C.; Ma, H.*; Li, J.; Zhou, T.; Cao, L.; Kang, D. Organic reductants based leaching: A sustainable process for the recovery of valuable metals from spent lithium ion batteries. Waste Manage. 2018, 75, 459-468. (IF2021=8.816, JCR Q1)
11. Chen, X.*; Ma, H.*; Luo, C.; Zhou, T. Recovery of metal values from waste cathodic materials of spent lithium-ion batteries using mild phosphoric acid. J. Hazard. Mater. 2017, 326, 77-86. (IF2021=14.224, JCR Q1, ESI 0.1% & ESI 1%)
10. Chen, X.; Fan, B.; Xu, L.; Zhou, T.* An atom-economic process for the recovery of high value-added metals from spent lithium-ion batteries. J. Clean. Prod. 2016, 112, 3562-3570. (IF2021=11.072, JCR Q1)
9. Chen, X.; Luo, C.; Zhang, J.; Zhou, T.* Sustainable recovery of metal values from spent lithium-ion batteries: A green process. ACS Sustain. Chem. Eng. 2015, 3, 3104-3113. (IF2021=9.224, JCR Q1)
8. Chen, X.; Chen, Y.; Zhou, T.*; Liu, D.; Hu, H.; Fan, S. Hydrometallurgical recovery of metal values from sulfuric acid leaching liquor of spent lithium-ion batteries. Waste Manage. 2015, 38, 349-356. (IF2021=8.816, JCR Q1, ESI 1%)
7. Chen, X.; Xu, B.; Zhou, T.*; Liu, D.; Hu, H.; Fan, S. Separation and recovery of metal values from leaching liquor of mixed-type of spent lithium-ion batteries. Sep. Purif. Technol. 2015, 144, 197-205. (IF2021=9.136, JCR Q1)
6. Chen, X.; Zhou, T.*; Kong, J.; Fang, H.; Chen, Y. Separation and recovery of metal values from leach liquor of waste lithium nickel cobalt manganese oxide-based cathodes. Sep. Purif. Technol. 2015, 141, 76-83. (IF2021=9.136, JCR Q1)
5. Chen, X. and Zhou, T.* Hydrometallurgical process for the recovery of metal values from spent lithium-ion batteries in citric acid media. Waste Manage. Res. 2014, 32,1083-1093. (IF2021=4.432, JCR Q1)
4. 曹玲,刘雅丽,康铎之,李佳竺,陈湘萍*,马宏瑞. 废旧锂电池中有价金属回收及三元正极材料的再制备. 化工进展. 2019, 38, 2499-2505. (EI,中文核心)
3. 江友周, 王宜, 李淑珍, 闫姝璇, 周涛, 陈湘萍*. 退役锂电池有价金属湿化学分离技术研究进展. 化学工业与工程. 2021, 38, 23-33. (邀稿,CSCD, 中文核心)
2. 华伟明; 陈湘萍*; 汲绍文; 李福涛. 水热法高效除杂及煅烧修复废旧石墨. 化学工业与工程 2023, 接受. (CSCD, 中文核心)
1. Chen, X.*; Cao, L.; Kang, D.; Li, J.; Li, S.; Wu, X. Hydrometallurgical Processes for Valuable Metals Recycling from Spent Lithium-Ion Batteries, Chapter in: Recycling of Spent Lithium-Ion Batteries, 2019, pp. 93-139. (英文专著,Springer-Nature)
授权国家发明专利:
1. 一种铁和钛浸出剂及其除硫铁矿浮选尾矿中铁和钛的工艺研究,2013, ZL 2013 10751214.8.
2. 一种从废旧锂电池钴酸锂中分离钴锂制备磷酸钴的方法,2017,ZL 2017 106395784 A.
3. 一种从混合型废旧锂离子电池中同时回收有价值的金属和铁的新型工艺,2019,ZL 2019 1 0994322.5.
4. 一种用电化学技术分离回收废旧锂电池中有价金属的方法,2022,ZL 2020 10632471.X.