王星辉
教授院长助理
博士生导师,入选闽江学者特聘教授,福建省杰出青年项目。2013年博士毕业于兰州大学物理科学与技术学院。2012年至2018年间,先后在新加坡南洋理工大学和新加坡-麻省理工学院科研中心从事科学研究工作。研究方向为新型储能材料与器件,主要致力于柔性和微型储能器件,具体包括薄膜固态锂离子微电池、集成电路用平面超级电容器、柔性储能器件、新型储能电池体系、机器学习在能源领域的应用等方面的研究。迄今为止,在Energy & Environmental Science、Nano Letters、Nano Energy、Small等国际知名新能源材料与器件领域期刊上发表SCI论文70余篇。Google学术显示SCI期刊引用4300余次,论文H指数38。

欢迎有志于科研的本科生、研究生和博士毕业生与我联系。
邮箱:seaphy23@fzu.edu.cn
 
 
学术及社会兼职(Academic and social work)  
1担任Journal of Physics: Materials、Frontiers In Energy Research 的客座编辑
2担任Energy Storage Materials、Advanced Materials、ACS Nano、Journal of Materials Chemistry A、Nanoscale、Journal of Power Sources、Carbon等国际能源期刊的长期审稿人。
 
科研项目(Research project)  
1510738新型储能材料与器件300万福建省教育厅2018-2021独立撰编写 
283417013多层中空碳硅纳米电缆阵列负极的可控制备及储锂性能研究23万国家自然科学基金2018-20211 
32019J06008高性能柔性硫硅全电池的开发29.8万福建省科技厅2019-2022独立撰编写福建省杰青项目
 
科技论著(Scientific treatise)  
1Close-spaced thermal evaporated 3D Sb2Se3 film for high-rate and high-capacity lithium-ion storageNanoscale 2021SCI通讯
2Rationally Optimized Carbon Fiber Cloth as Lithiophilic Host for Highly Stable Li Metal AnodesMaterials Today Energy 2021SCI通讯
3Recent advances in screening lithium solid-state electrolytes through machine learningFrontiers in Energy Research 2021SCI通讯
4 A Silicon-based 3D All-Solid-State Micro-Supercapacitor with Superior PerformanceACS Applied Materials & Interfaces 2020SCI通讯
5Facile fabrication of core-shell Ni3Se2/Ni nanofoams composites for lithium ion battery anodesJournal of Materials Science & Technology 2020SCI通讯
6 Stable Lithium Metal Anode Achieved by In Situ Grown CuO Nanowire Arrays on Cu FoamEnergy Fuels 2020SCI通讯
7A hierarchical Copper Oxide-Germanium Hybrid Film for High Areal Capacity Lithium Ion BatteriesFrontiers in Chemistry 2020SCI通讯
8Enhanced Performance of an Electric Double Layer Microsupercapacitor Based on Novel Carbon-Encapsulated Cu Nanowire Network Structure As the ElectrodeACS Applied Materials & Interfaces 2019SCI通讯
9In-situ Functionalization of Metal Electrodes for Advanced Asymmetric SupercapacitorsFrontiers in Chemistry 2019SCI1
10Influences of Annealing on Lithium-Ion Storage Performance of Thick Germanium Film AnodesNano Energy 2015SCI1
11Ultrahigh Volumetric Capacity Lithium Ion Battery Anodes with Thick CNT-Si FilmNano Energy 2014SCI1
12High areal capacity Li ion battery anodes based on thick mesoporous Co3O4 nanosheet networksNano Energy 2014SCI1
13Metal-free SWNT/carbon/MnO2 hybrid electrode for high performance coplanar micro-supercapacitorsNano Energy 2016SCI1
14Bi-functional electrode for UV detector and supercapacitorNano Energy 2015SCI1
15Vertically aligned CNTs supported Ge thin film as high performance 3D anodes for lithium ion batteriesSmall 2014SCI1
16Ni–Si nanosheet network as high performance anode for Li ion batteriesJournal of Power Sources 2015SCI1
17Size-controllable porous NiO electrodes for high-performance lithium ion battery anodesMaterials Research Bulletin 2017SCI通讯
18Sulfur cathode integrated with multileveled carbon nanoflake-nanosphere networks for high-performance lithium-sulfur batteriesElectrochimica Acta 2017SCI1
19Highly stable and flexible Li-ion battery anodes based on TiO2 coated 3D carbon nanostructuresJournal of Materials Chemistry A 2015SCI1
20Optimization of coplanar high rate supercapacitorsJournal of Power Sources 2016SCI1
21A hierarchical 3D carbon nanostructure for high areal capacity and flexible lithium ion batteriesCarbon 2016SCI1
22Copper-Silicon Core-Shell Nanotube Arrays for Free-Standing Lithium Ion Battery AnodesJournal of Materials Chemistry A 2014SCI1
23High performance binder-free Sn coated carbon nanotube array anodeCarbon 2015SCI1
24NiO Nanocone Array Electrode with High Capacity and Rate Capability for Li-Ion BatteriesJournal of Materials Chemistry 2011SCI1
25Mesoporous NiO Nanosheet Networks as High Performance Anode for Li Ion BatteriesJournal of Materials Chemistry A 2013SCI1
26Nanostructured NiO electrode for high rate Li-ion batteriesJournal of Materials Chemistry 2011SCI1