李祥业博士(Xiangye Li, Ph.D.):本科毕业于牡丹江师范学院应用化学专业,在渤海大学无机化学专业获得理学硕士学位;2021年至今,在兰州理工大学材料科学与工程学院(有色金属先进加工与再利用国家重点实验室)攻读材料学博士学位。研究方向为柔性可穿戴储能器件及化学。公开发表的代表性学术成果:
[1] Xiangye Li, Lu Wang, Yihan Fu, Hao Dang, Dahui Wang, Fen Ran*, Optimization Strategies Toward Advanced Aqueous Zinc-ion Batteries:From Facing Key Issues to Viable Solutions, Nano Energy 2023, 116: 108858. (影响因子:17.6;中科院1区) https://doi.org/10.1016/j.nanoen.2023.108858.
[2] Xiangye Li, Dahui Wang, Fen Ran*, Key Approaches and Challenges in Fabricating Advanced Flexible Zinc-ion Batteries with Functional Hydrogel Electrolytes, Energy Storage Materials 2023, 56: 351-393. (影响因子:20.4;中科院1区;ESI高被引论文) https://doi.org/10.1016/j.ensm.2023.01.034.
[3] Xiangye Li, Yuan Li, Yu Jiang, Dahui Wang, Fen Ran*, Designing Carboxymethyl Cellulose Based Hydrogel Electrolyte Membranes Enhanced by Inorganic Nanoparticle Toward Stable Zinc Anode, Green Energy & Environment 2024, Accept. (影响因子:13.3;中科院1区)
[4] Xiangye Li, Tieshi He* et al. Electrospun metal–organic framework based nanofibers for energy storage and environmental applications: current approaches and challenges[J], Journal of Materials Chemistry A 10 (2022) 1642-1681.
[5] Xiangye Li, Tieshi He* et al. Highly conductive, hierarchical porous ultra-fine carbon fibers derived from polyacrylonitrile/polymethylmethacrylate/needle coke as binder-free electrodes for high-performance supercapacitors[J], Journal of Power Sources 521 (2022) 230943.
[6] Xiangye Li, Tieshi He* et al. PAN-derived electrospun nanofibers for supercapacitor applications: on-going approaches and challenges[J], Journal of Materials Science 56 (2021) 1642-1681.
[7] Xiangye Li, Tieshi He* et al. Free-standing, activated needle coke/carbon nanofibers with enhanced electrochemical property as supercapacitor electrodes[J], Journal of Energy Storage. (2022) Revised.
[8] Tieshi He⁎, Xiangye Li et al. Carbon nano-fibers/ribbons with meso/macro pores structures for supercapacitor[J], Journal of Electroanalytical Chemistry 878 (2020) 114597.
