1. (102)Nondestructive flash cathode recycling
无损闪速正极回收
2. (108)Regenerated Graphite Electrodes with Reconstructed Solid Electrolyte Interface and Enclosed Active Lithium Toward >100% Initial Coulombic Efficiency
具有重构固态电解质界面和包封活性锂的再生石墨电极实现>100%初始库仑效率
3. (13)Flash Recycling of Graphite Anodes
石墨负极的闪速回收
4. (153)Rapid Regeneration of Graphite Anodes via Self-Induced Microwave Plasma
通过自诱导微波等离子体快速再生石墨负极
5. (183)Battery metal recycling by flash Joule heating
通过闪蒸焦耳加热回收电池金属
6. (234)Efficient and environmentally friendly separation and recycling of cathode materials and current collectors for lithium-ion batteries by fast Joule heating
通过快速焦耳加热高效环保地分离和回收锂离子电池正极材料和集流体
7. (235)Rapid, Direct Regeneration of Spent LiCoO₂ Cathodes for Li-Ion Batteries
锂离子电池废LiCoO₂正极的快速直接再生
8. (280)Kinetics Dominated, Interface Targeted Rapid Heating for Battery Material Rejuvenation
动力学主导、界面靶向的快速加热用于电池材料再生
9. (288)Recycling of spent lithium-ion batteries via sulfidation shock
通过硫化冲击回收废旧锂离子电池
10. (289)Direct regeneration and flash upcycling of mixed spent graphite with a uniform energy-storage property
混合废石墨的直接再生与闪速升级回收及其均匀储能性能
11. (298)Flash Joule Heating Upgraded Li Leaching of Residues from Spent LiFePO₄ Cathodes for Superior Catalytic Degradation of Pollutants
闪速焦耳热升级废旧LiFePO₄正极浸锂残渣用于高效催化降解污染物
12. (311)Upcycling of photovoltaic waste graphite into high performance graphite anode
光伏废石墨升级再造为高性能石墨负极
13. (33)Battery metal recycling by flash Joule heating
闪速焦耳加热回收电池金属
14. (330)Toward Joule heating recycling of spent lithium-ion batteries: A rising direct regeneration method
面向废旧锂离子电池的焦耳热回收
15. (385)Upcycling Spent Cathodes from Li−Ion Batteries into a High-Entropy Alloy Catalyst with Reverse Electron Transfer for Li−O₂ Batteries
将废旧锂离子电池正极升级为具有反向电子转移的高熵合金催化剂用于锂氧电池
16. (398)Upcycling Spent Lithium-Ion Batteries: Constructing Bifunctional Catalysts Featuring Long-Range Order and Short-Range Disorder for Lithium-Oxygen Batteries
废弃锂离子电池升级再造
17. (401)Rapid electrothermal rejuvenation of spent lithium cobalt oxide cathode
废旧钴酸锂正极的快速电热再生
18. (403)Flash recovery of lithium from spent anode graphite by carbothermal shock and water leaching
通过碳热冲击和水浸法快速回收废负极石墨中的锂
19. (413)Recycling spent lithium ion batteries by flash joule heating: preferential lithium recovery and Li-phase conversion mechanism under ultra-temperature
闪速焦耳加热回收废旧锂离子电池
20. (415)Upcycling waste photovoltaic cells into silicon carbide via flash Joule heating
通过闪速焦耳热将废弃光伏电池升级转化为碳化硅
21. (42)Battery metals recycling by flash Joule heating
通过闪速焦耳加热回收电池金属
22. (428)Fully upcycling spent ternary cathodes by simultaneously extracting lithium and constructing high performance oxygen evolution catalysts
通过同时提取锂和构建高性能析氧催化剂实现废三元正极的完全升级回收
23. (60)Direct and Rapid High-Temperature Upcycling of Degraded Graphite
降解石墨的直接快速高温升级回收
24. (63)Ultra-fast, low-cost, and green regeneration of graphite anode using flash joule heating method
基于闪速焦耳加热法的超快速、低成本、绿色石墨负极再生
25. (93)Rapid, Direct Regeneration of Spent LiCoO₂ Cathodes for Li-Ion Batteries
锂离子电池废LiCoO₂正极的快速直接再生
26. (95)Targeted regeneration and upcycling of spent graphite by defect driven tin nucleation
缺陷驱动锡成核实现废石墨的定向再生与升级回收
27. (97)A General Method for Regenerating Catalytic Electrodes
一种再生催化电极的通用方法