王俊雄

职位：助理研究员

团队：梁正课题组

邮箱：wjx1992@sjtu.edu.cn

个人/课题组主页：https://www.scopus.com/authid/detail.uri?authorId=57220089304

研究方向

· 锂离子电池正极材料直接回收方法

· 锂离子电池直接回收体系产业化

教育背景

2014.09-2019.12 华中科技大学，环境科学与工程学院，工学博士，导师：杨家宽 教授

2010.09-2014.07 华中科技大学，材料科学与工程学院/启明学院，工学学士，导师：黄云辉 教授

工作经历

2020.06-2022.11 上海交通大学/清华大学深圳国际研究生院，化学化工学院/材料研究院，博士后，合作导师：梁正 副教授/成会明 教授

学术任职、荣誉与获奖

1. Wang, J.X.^†, Jia, K.^†, Ma, J.^†, Liang, Z.^*, Zhuang, Z.F., Zhao, Y., Li, B. H., Zhou, G.M.^*, Cheng, H.-M. ^* Sustainable regeneration from degraded LiCoO₂ to ultra-stable high-voltage LiCoO₂ at 4.6 V. Nat. Sustain. accepted (2022).

2. Wang, J.X.^†, Zhang, Q.^†, Sheng, J. Z.^†, Liang, Z.^*, Ma, J., Chen, Y. M., Zhou, G.M.^*, Cheng, H.-M. ^* Direct and green repairing of degraded LiCoO₂ for reuse in lithium-ion batteries. Natl. Sci. Rev. 9(8), nwac097 (2022).

3. Wang, J.X.^†, Ma, J.^†, Jia, K.^†, Liang, Z.^*, Ji, G. J., Zhao, Y., Li, B. H., Zhou, G.M.^*, Cheng, H.-M. ^* Efficient extraction of lithium from anode for direct regeneration of cathode materials of spent Li-ion batteries. ACS Energy Lett. 7,8, 2816-2824 (2022).

4. Wang, J.X., Liang, Z.^*, Zhao, Y., Sheng J.Z., Ma, J., Jia, K., Li, B. H., Zhou, G.M.^*, Cheng, H.-M. ^* Direct conversion of degraded LiCoO₂ cathode materials into high-performance LiCoO₂: A closed-loop green recycling strategy for spent lithium-ion batteries. Energy Storage Mater. 45, 768-776 (2022).

5. Ma, J.^†, Wang, J.X.^†, Jia, K.^†, Liang, Z.^*, Ji, G. J., Zhuang, Z.F., Zhou, G.M.^*, Cheng, H.-M. ^* Adaptable Eutectic Salt for the Direct Recycling of Highly Degraded Layer Cathodes. J. Am. Chem. Soc. 144, 44, 20306–20314 (2022).

6. Jia, K.^†, Ma, J.^†, Wang, J.X.^†, Liang, Z.^*, Ji, G. J., Piao, Z. H., Gao, R. H., Zhu, Y. F., Zhuang, Z.F., Zhou, G.M.^*, Cheng, H.-M. ^* Long-Life Regenerated LiFePO₄ from Spent Cathode by Elevating the d-Band Center of Fe. Adv. Mater. In press (2022).

7. Jia, K.^†, Wang, J.X.^†, Ma, J.^†, Liang, Z.^*, Zhuang, Z.F., Ji, G. J., Gao, R. H., Piao, Z. H., Li, C., Zhou, G.M.^*, Cheng, H.-M. ^* Suppressed Lattice Oxygen Release via Ni/Mn Doping from Spent LiNi_0.5Mn_0.3Co_0.2O₂ toward High-Energy Layered-Oxide Cathodes. Nano. Lett. 22, 20, 8372–8380 (2022).

8. Wang, J.X., Yang, J. K. ^*, Hou, H. J. ^*, Li, W., Hu, J. P., Li, M. Y., Yu, W.H., Wang, Z. Y., Liang, S., Xiao, K. K., Liu, B. C., Xi, K., Vasant. K. A green strategy to synthesize two-dimensional lead halide perovskite via direct recovery of spent lead-acid battery. Resour. Conserv. Recy. 169,105463 (2021).

9. Wang, J.X., Li, M. Y., Hu, J. P., Ke, Y., Yu, W.H., Wang, Z. Y., Liang, S., Xiao, K. K., Hou, H. J. ^*, Yang, J. K. ^* Effect of particle size on phase transitions of positive active materials made from novel leady oxide during soaking process and its influence on lead-acid battery capacity. J. Energy Storage. 28,101175 (2020).

10. Wang, J.X., Hou, H. J. ^*, Hu, J. P., Wu, X., Hu, Y.C., Li, M. Y., Yu, W.H., Zhang, P. Y., Liang, S., Xiao, K. K., Vasant. K., Yang, J. K. ^* Mechano-chemical synthesis of high-stable PbO@C composite for enhanced performance of lead-carbon battery. Electrochim. Acta 299,682-691 (2019).

11. Wang, J.X., Yang, J. K. ^* Rapid electrochemical assessment of the novel leady oxide recovered from spent lead pastes: a case study on the effect of iron and antimony doping. J. Electrochem. Soc. 166, A2715-A2720 (2019).

12. Wang, J.X., Yang, J. K. ^*, Hu, J. P., Hu, Y.C., Li, M. Y., Yu, W.H., Zhang, P. Y., Liang, S., Wu, X., Xiao, K. K., Vasant. K., Insights on relationship between deterioration and direct-current internal resistance of valve regulated lead-acid battery by addition of granular carbon additives under HRPSoC duty. J. Electrochem. Soc. 165, A1753-A1760 (2018).