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罗弼

基本信息

EB186

导师姓名：罗弼

导师职称：讲师

电子邮箱：biluo@xtu.edu.cn

办公室：化学化工大楼A108

个人简介

罗弼，男，中共党员，博士，硕士生导师。2024年8月毕业于中南大学，获工学博士学位，同年9月入职K8凯发官方网站。主要从事电池材料制备及废弃电池材料的资源回收利用方面的研究。以（共同）第一作者或通讯作者在Chem. Eng. J.、J. Energy Chem.、Adv. Energy. Mate.r、Adv. Funct. Mater.等国际期刊发表学术论文10余篇，其中ESI高被引论文2篇，授权国家发明专利4项。

研究方向

(1) 废弃电池/生物质材料的资源回收利用

(2) 锂钠电池电极/电解质新材料的的宏量制备环境友好工艺

招生信息：

本研究团队（周业丰教授课题组）常年招收博士和硕士生，欢迎化工/化学/材料科学等相关专业背景等考生报考或调剂。导师将全程指导文献阅读、实验操作及论文撰写，并定期交流课题进展，助力高效科研训练。也欢迎本科生同学联系加入实验室，申请大学生科研创新项目和竞赛，提升实验技能与创新思维。欢迎有意者请邮件联系。

科研项目

1. 湘潭大学博士科研启动项目，主持（在研）

2. 国家自然科学基金优秀青年基金项目，参与（结题）

3. 国家自然科学基金面上项目，参与（结题）

主要代表性论文

[1] Luo, B; Wang, Q; Ji, W J; Yu, G H; Zhao, Z W; Zhao, R R; Zhang, B; Wang, X W*; Zhang, J F*, Suppressing lithium dendrite via hybrid interface layers for high performance quasi-solid-state lithium metal batteries. Chem. Eng. J. 2024, 492, 152152.

[2] Luo, B; Wang, W; Wang, Q; Ji, W; Yu, G; Liu, Z; Zhao, Z; Wang, X*; Wang, S*; Zhang, J*, Facilitating ionic conductivity and interfacial stability via oxygen vacancies-enriched TiO₂ microrods for composite polymer electrolytes. Chem. Eng. J. 2023, 460, 141329.

[3] Luo, B; Li, H*; Qi, H Y; Liu, Y; Zheng, C B; Du, W T; Zhang, J F; Chen, L*, Effect of crystal morphology of ultrahigh-nickel cathode materials on high temperature electrochemical stability of lithium ion batteries. J. Energy Chem. 2024, 88, 327-335.

[4] Luo, B; Wu, P; Zhang, J*; Cao, L; Wang, C; Lu, B; Zhang, B; Ou, X*, Van der Waals heterostructure engineering by 2D space-confinement for advanced potassium-ion storage. Nano Res. 2021, 14 (11), 3854-3863.

[5] Luo, B; Jiang, B; Peng, P; Huang, J; Chen, J; Li, M*; Chu, L; Li, Y, Improving the electrochemical performance of LiNi_1/3Co_1/3Mn_1/3O₂ cathode material via tungsten modification. Electrochim. Acta 2019, 297, 398-405.

[6] Huang, S; Luo, B*; Zhang, Z; Wang, Q; Yu, G; Bu, X; Huang, Z; Wang, X; Song, W-L*; Zhang, J*; Jiao, S, Effect of crystal morphology of nickel-rich cathode materials on electrochemical stability and ion transport kinetics of sulfide-based all-solid-state batteries. Chin. Chem. Lett. 2024, 110729.

[7] Ji, W¹; Luo, B¹; Wang, Q; Yu, G; Liu, Z; Zhao, Z; Zhao, R; Wang, S; Wang, X W*; Zhang, B; Zhang, J*; Hou, F; Liang, J*, Revealing the influence of surface microstructure on Li wettability and interfacial ionic transportation for garnet-type electrolytes. Adv. Energy Mater 2023, 13 (21), 2300165.

[8] Cao, L¹; Luo, B¹; Xu, B; Zhang, J; Wang, C; Xiao, Z; Li, S; Li, Y; Zhang, B; Zou, G; Hou, H; Ou, X*; Ji, X*, Stabilizing Intermediate Phases via Efficient Entrapment Effects of Layered VS4/SnS@C Heterostructure for Ultralong Lifespan Potassium‐Ion Batteries. Adv. Funct. Mater. 2021, 2103802.

[9] Zhu, L K¹; Luo, B¹; Men, L J; Chen, J Y; Xie, F H; Zhang, W L; Zhang, J F; Zhou, Y F*, A green synthesis strategy for lithium/sodium-ion battery anodes: morphology and structure engineering in biochar to boost comprehensive electrochemical performance. Green Chemistry 2025, 27 (7), 2078-2091.

[10] Jiang, B¹; Luo, B¹; Li, J; Peng, P; Chen, J; Chu, L; Li, Y; Li, M*, Electrochemical effect of graphite fluoride modification on Li-rich cathode material in lithium ion battery. Ceram. Int. 2019, 45 (1), 160-167.

发明专利