付比,男,博士,校聘副教授,硕士研究生导师。西安交通大学物理学专业理学博士学位。主要从事普通物理教学和材料物理领域科研工作,近年来在Nano Energy,Applied Physics Letters,Nanoscale,Materials Research Bullion,Nanotechnology等国际知名学术期刊发表SCI论文30余篇。申请5项发明专利。
主持研究领域:
1.铁电多铁材料与器件物理
2.铁电/光电纤维异质结与压电光催化技术
3.锂/钠离子储能电极设计与电化学能源器件
主持项目:
1.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
2.广东技术师范大学青年人才岗-优秀博士科研启动,2021/10-2025/10
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
4.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.广东省自然科学基金-博士科研启动纵向协同项目,电纺丝法构筑多铁复合材料及其磁电效应研究,2018/01-2021/12
6.深圳市科技创新计划自由探索项目,三维纳米结构钠离子电池电极的构筑及性能研究,2018/05-2020/05
主要代表性论文:
[1]J. Cheng, H. Yang,B. Fu, R. Lu, Y. Yang, Z. Chen, Y. He, J. Dai, Y. Wang, ElectrospunBCTZ-CoFe2O4multiferroic hybrid nanofiber for the localized piezocatalytic degradation of organic pollutants,Functional Materials Letters, (2025) 2551029.
[2]H. Yang, J. Cheng, L. Huang, R. Lu, C. Hu,B. Fu, J. Dai, Y. Wang, Mechanicallyinducedbuilt-inelectricfield in BCTZnanostructures forpiezocatalysis:experiments andmodeling,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@TiO2core-shell nanofibers for enhanced piezo-photocatalytic degradation of organic pollutants,Nano Energy, 93 (2022) 106841.
[4]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@TiO2nanofibers,Nanoscale, 14 (2022) 14073-14081.
[5]Y. Su,B. Fu, G. Yuan, M. Ma, H. Jin, S. Xie, and J. Li, Three-dimensional mesoporous γ-Fe2O3@Carbon nanofiber network as high-performance anode material for lithium- and sodium-ion batteries,Nanotechnology, 31 (2020) 155401.
[6]Y. Qi , J. Liu, J. Dai, X. Shi, X. Zhu, H. Dong, W. Zhao, andB. Fu, Freestanding SnS carbon composite nanofiber material with excellent electrochemical performance as binder-free negative electrode for lithium-ion batteries,Chemistryselect, 5 (2020) 1792-1796.
[7]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.
[8]J. Liu, Y. Qi,B. Fu, J. Dai, Q. Wang, X. Zhu, X. Shi, Li+diffusion kinetics of SnS2nanoflowers 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.
[9]J. Liu,B. Fu, J. Dai, X. Zhu, Q. Wang, Study the mechanism of enhanced Li storage capacity through decreasing internal resistance by high electronical conductivity via sol‐gel electrospinning of Co3O4carbon nanofibers,ChemistrySelect, 4 (2019) 3542-3546.
[10]B. Fu, Y. Su, J. Yu, S. Xie, J. Li, Single crystalline nanorods of Na0.44MnO2enhanced by reduced graphene oxides as a high rate and high-capacity cathode material for sodium-ion batteries,Electrochemica Acta, 303 (2019) 125-132.
[11]B. Fu, X. Zhou, and Y. Wang, High-rate performance electrospun Na0.44MnO2nanofibers as cathode material for sodium-ion batteries.Journal of Power Sources, 310 (2016) 102-108.
[12]B. Fu, X. Zhou, and Y. Wang, Co3O4carbon nanofiber mats as negative electrodes for sodium-ion batteries,Materials Letters, 170 (2016) 21-24.
[13]B. Fu, Y. Yang, K. Gao, and Y. Wang, Significant increase ofTCand large piezoelectric coefficient inBCTZnanofibers,Applied Physics Letters, 107 (2015) 042903.
[14]B. Fu, R. Lu, K. Gao, Y. Yang, and Y. Wang, Magnetoelectric coupling in multiferroic BaTiO3-CoFe2O4composite nanofiber via electrospinning,Europhysics Letters, 111 (2015) 17007.
[15]B. Fu, R. Lu, K. Gao, Y. Yang, and Y. Wang, Substrate clamping effect onto magnetoelectric coupling in multiferroic BaTiO3-CoFe2O4core-shell nanofibers via coaxial electrospinning,Europhysics Letters, 112 (2015) 27002.
[16]B. Fu, R. Lu, M. Liu, K. Gao, Y. Tong, X. Zhou, B. Guo, Y. Yang, and Y. Wang, Variation of local piezoelectricity in multiferroic CoFe2O4-PZTcomposite nanofibers,Materials Letters, 157 (2015) 311-314.
E-mail: fubi@gpnu.edu.cn
