周传聪,男,山东省聊城人,汉族,中共党员,博士,硕士生导师,讲师。主要从事水系锌离子电池、金属-卤素电池、固态电池电极材料设计及其反应机制光谱学研究。目前,以第一作者(含共同)身份在Adv. Mater.、Angew. Chem. Int. Ed.、Adv. Energy Mater.、Adv. Funct. Mater.、ACS Energy Lett.等期刊发表SCI论文10余篇,授权国家发明专利3项,担任Nano Research Energy期刊青年编委。
教育经历:
2021-09至2025-06中海南大学 化学工程与技术专业 工学博士
2018-09至2021-06聊城大学 无机化学专业 理学硕士
2013-09至2017-06山东石油化工学院 应用化学专业 理学学士
工作经历:
2023-07至今 南阳师范学院 物理与电子工程学院 讲师
主讲课程:高等物理化学原理与应用、凝聚态物理导论、大学物理实验
研究项目:
1. 锌离子电池反应界面调控及其作用机制研究,南阳师范学院博士专项,30万,主持,在研
代表科研论文:
1. Zhou, C.; Shan, L.; Xing, Z.; Zhou, Y.; Chen, W.; Liang, X.; Li, J.; Rao, P.; Kang, Z.; Shi, X.*; Liu, M.*; Tian, X.* Interface Layer Engineering of Zinc Anode for Durable Seawater-Based Zinc-Ion Batteries. Advanced Materials 2026, 38 (6), e16045. (IF=26.8,中科院一区)
2. Zhou, C.; Wang, Z.; Nan, Q.; Wen, H.; Xu, Z.; Zhang, J.; Zhao, Z.; Li, J.; Xing, Z.; Rao, P.; Kang, Z.; Shi, X.*; Tian, X*. Simultaneous Inhibition of Vanadium Dissolution and Zinc Dendrites by Mineral‐Derived Solid-State Electrolyte for High-Performance Zinc Metal Batteries. Angewandte Chemie International Edition 2024, 63 (51), e202412006. (IF=16.9,中科院一区)
3. Zhou, C.; Xu, Z.; Nan, Q.; Zhang, J.; Gao, Y.; Li, F.; Zhao, Z.; Xing, Z.; Li, J.; Rao, P.; Kang, Z.; Shi, X.*; Tian, X*. Spatial Confinement Effect of Mineral-Based Colloid Electrolyte Enables Stable Interface Reaction for Aqueous Zinc-Manganese Batteries. Advanced Energy Materials 2025, 15 (7), 2405387. (IF=26.0,中科院一区)
4. Zhou, C.; Shan, L.; Nan, Q.; Zhang, J.; Fan, Z.; Tang, B.; Li, J.; Yang, J.; Zhang, H.; Kang, Z.; Tian, X.*; Shi, X.* Construction of robust organic–inorganic interface layer for dendrite‐free and durable zinc metal anode. Advanced Functional Materials 2024, 34 (19), 2312696. (IF=19.0,中科院一区)
5. Li, F.; Zhou, C.; Zhang, J.; Gao, Y.; Nan, Q.; Luo, J.; Xu, Z.; Zhao, Z.; Rao, P.; Li, J.; Kang, Z.; Tian, X.*; Shi, X.* Mullite Mineral‐Derived Robust Solid Electrolyte Enables Polyiodide Shuttle-Free Zinc-Iodine Batteries. Advanced Materials 2024, 36 (38), 2408213. (IF=26.8,中科院一区)
6. Shi, X.; Zhou, C.; Yang, F.; Shan, L.*; Tang, B.; Zhang, J.; Nan, Q.; Xie, Y.; Li, J.; Li, H.*; Tian, X.* Spontaneous interface layer engineering of Ag2Mn8O16 cathode via anodic oxidation strategy toward high-performance aqueous zinc-ion batteries. ACS Energy Letters 2024, 9 (3), 1063-1072. (IF=18.2,中科院一区)
7. Shi, X.; Zhou, C.; Gao, Y.; Yang. J.*; Xie, Y.; Feng, S.; Zhang, J.; Li, J.; Tian, X.*; Zhang, H.* Pore structure and oxygen content design of amorphous carbon toward a durable anode for potassium/sodium-ion batteries. Carbon Energy, 2024, 6, e534. (IF=24.2,中科院一区)
8. Chen, Z.; Zhang, J.; Zhou, C.; Guo, S.; Wu, D.; Zhao, Z.; Wang, Z.; Li, J.; Xing, Z.; Rao, P.; Kang, Z.; Tian, X.*; Shi, X.* Sulfonated lignin binder blocks active iodine dissolution and polyiodide shuttle toward durable zinc‐iodine batteries. Advanced Energy Materials 2025, 15 (8), 2404814. (IF=26.0,中科院一区)
9. Zhang, J.; Qiu, C.; Zhou, C.; Guo, S.; Gao, Y.; Li, F.; Wang, X.; Zhao, Z.; Xing, Z.; Li, J.; Kang, Z.; Tian, X.*; Shi, X.* Liner-chain polysaccharide binders with strong chemisorption capability for iodine species enables shuttle-free zinc-iodine batteries. Nano Energy 2025, 133, 110519. (IF=17.1,中科院一区)
10. Zhang, J.; Zhou, C.; Xie, Y.; Nan, Q.; Gao, Y.; Li, F.; Rao, P.; Li, J.; Tian, X.*; Shi, X.* Inorganic Electrolyte Additive Promoting the Interfacial Stability for Durable Zn‐Ion Batteries. Small 2024, 20 (45), 2404237. (IF=12.1,中科院二区)
11. Chen, Y.; Liang, Y.; Zhou, C.; Li, Z.; Wu, D.; Li, J.; Dong, P.; Zhang, Y.; Tian, X.; Shi. X. Heterogeneous‐Structured Molybdenum Diboride as a Novel and Promising Anode for Lithium‐Ion Batteries. Small 2024, 20 (32), 2311782. (IF=12.1,中科院二区)
12. Zhou, C.; Xu, Z.; Chen, M.; Nan, Q.; Zhang, J.; Gao, Y.; Zhao, Z.; Li, J.;Rao, P.; Kang, Z.; Shi, X.*; Tian, X*. Natural seawater-based electrolytes for zinc-ion batteries. EES Batteries 2025, 1, 161-171
13. Zhou, C.; Liu, H.; Ding, L.; Lu, J.*; Wang, S.; Li, Y. Single crystal to single crystal transformations among three Mn-MOFs containing different water molecules induced by reaction time: crystal structures and proton conductivities. Dalton Transactions 2021, 50 (32), 11077-11090.
14. Zhou, C.; Liu, H.; Ding, L.; Lu, J.*; Wang, S.; Li, Y. Proton conductivities of four low dimensional MOFs: affected by the amount of chelated ligands. CrystEngComm 2021, 23 (29), 5106-5115.
15. Zhou, C.; Yan, H.; Liu, H.; Li, R.; Lu, J.*; Wang, S.; Li, Y. Proton conductivity studies on five isostructural MOFs with different acidity induced by metal cations. New Journal of Chemistry 2020, 44 (41), 17821-17830.
国家发明专利:
1. 一种固态电解质及其制备方法和应用. CN 202410858567.6
2. 一种具有界面保护层的水系锌离子电池负极及其制备方法. CN202311217357.0
3. 一种具有凝胶电解质界面的水系金属离子电池负极及其制备方法. CN202311212389.1
4. 一种高浓度固液混合的锌离子电池电解质及其制备方法和应用. CN 202410959746.9
5. 正极材料及其制备方法、电池正极、锌离子电池. CN 202410979712.6
6. 一种水系金属离子电池羧甲基壳聚糖凝胶电解质及其制备方法. CN202311217332.0
7. 一种电解液及其制备方法和应用. CN 202410586724.2
