研究方向:铁电多铁力磁电物性表征与多场耦合调控,静电纺丝纳米纤维与压电光催化技术,锂/钠离子电极设计与储能器件
办公邮箱:fubi@gpnu.edu.cn
个人简介:
付比,男,博士,硕士生导师,广东技术师范大学光电工程学院校聘副教授。主要从事材料物理领域研究,在Nano Energy, Applied Physics Letters, Europhysics Letters发表SCI论文30余篇,申请发明专利7项,主持国家自然科学基金,广东省自然科基金等课题。
教育背景:
2016年6月获西安交通大学理学博士学位,2012年06月获兰州理工大学理学硕士学位,2007年06月获湖北师范大学理学学士学位
工作经历:
2021.10至今 广东技术师范大学 校聘副教授
2020.06-2021.10 南方科技大学 研究助理教授
2016.10-2020.15 中国科学院深圳先进技术研究院 博士后/助理研究员
主讲课程:《热学》、《普通物理》、《普通物理实验》
代表性科研项目:
1.广东技术师范大学优秀博士科研启动项目,2021.10-2025.10,35万,主持
2.广东省自然科学基金面上项目,静电纺丝技术构建铁电/光电纤维异质结及其压电光催化协同效应研究,2024.01-2026.12,15万,主持
3.国家自然科学基金-青年科学基金项目,基于多模式探针技术的纳米尺度结构和力学性能与局域电化学表征,2019/01-2021/12,30万,主持(结题)
4.广东省自然科学基金面上项目,电纺丝法构筑多铁复合材料及其磁电效应研究,2018.01-2021.12,10万,主持(结题)
5.中国博士后科学基金面上资助,无铅多铁复合纤维力磁电耦合效应的调控与测量,2017.05-2018.10,5万,主持(结题)
代表性论文:
1. H. Yang, B. Fu, Piezo-phototronics enhanced by nano-opto-electro-mechanical pump system of lead-free piezo/photoelectric semiconductor core-shell nanoheterostructures, Journal of Alloy Compounds, 1024 (2025) 180252.
2. H. Yang, J. Cheng, L. Huang, R. Lu, C. Hu, B. Fu, J. Dai, Y. Wang, Mechanically induced built-in electric field in BCTZ nanostructures for piezocatalysis: experiments and modeling, Materials Research Bullion (2024) 113066.
3. B. Fu, J. Li, H. Jiang, X. He, Y. Ma, J. Wang, C. Hu, Modulation of electric dipoles inside electrospun BaTiO3@TiO2 core-shell nanofibers for enhanced piezo-photocatalytic degradation of organic pollutants, Nano Energy, 93 (2022) 106841.
4. J. Liu, Y. Qi, B. Fu, J. Dai, Q. Wang, X. Zhu, X. Shi, Li+ diffusion kinetics of SnS2 nanoflowers enhanced by reduced graphene oxides with excellent electrochemical performance as anode material for lithium-ion batteries, Journal of Alloys and Compounds, 794 (2019) 285-293.
5. B. Fu, X. Zhou, and Y. Wang, High-rate performance electrospun Na0.44MnO2 nanofibers as cathode material for sodium-ion batteries. Journal of Power Sources, 310 (2016) 102-108.
6. B. Fu, Y. Yang, K. Gao, and Y. Wang, Significant increase of TC and large piezoelectric coefficient in BCTZ nanofibers, Applied Physics Letters, 107 (2015) 042903.
7. B. Fu, J. Li, H. Jiang, X. He, Y. Ma, J. Wang, C. Shi, C. Hu, Enhanced piezotronics by single-crystalline ferroelectrics for uniformly strengthening the piezo-photocatalysis of electrospun BaTiO3@TiO2 nanofibers, Nanoscale, 14 (2022) 14073-14081.
8. B. Fu, Y. Su, J. Yu, S. Xie, J. Li, Single crystalline nanorods of Na0.44MnO2 enhanced by reduced graphene oxides as a high rate and high-capacity cathode material for sodium-ion batteries, Electrochemica Acta, 303 (2019) 125-132.
9. Y. Su, B. Fu, G. Yuan, M. Ma, H. Jin, S. Xie, and J. Li, Three-dimensional mesoporousγ-Fe2O3@Carbon nanofiber network as high-performance anode material for lithium- and sodium-ion batteries, Nanotechnology, 31 (2020) 155401.
10. J. Yu, M. Tang, B. Fu, Y. Su, G. Zhong, Y. Ou, B. Huang, L. Wei, X. Zhong, J. Wang, and S. Xie, Europhysics Letters, 128 (2019) 47002.
11. B. Fu, R. Lu, K. Gao, Y. Yang, and Y. Wang, Magnetoelectric coupling in multiferroic BaTiO3-CoFe2O4 composite nanofiber via electrospinning, Europhysics Letters, 111 (2015) 17007.
12. B. Fu, R. Lu, K. Gao, Y. Yang, and Y. Wang, Substrate clamping effect onto magnetoelectric coupling in multiferroic BaTiO3-CoFe2O4 core-shell nanofibers via coaxial electrospinning, Europhysics Letters, 112 (2015) 27002.
