Lecturer at Guangdong Polytechnic Normal University, China.
Dr. Bi Fu, Ph.D., is a passionate researcher and lecturer at the School of Optoelectronic Engineering, Guangdong Polytechnic Normal University, Guangzhou π¨π³. With a focus on ferroelectric and multiferroic materials, piezo-photocatalysis, and electrospun nanofibers βοΈ, he is advancing the frontier of energy and environmental materials. He has published over 24 high-impact articles in journals like Nano Energy and Nanoscale π. Dr. Fu combines academic rigor with practical innovation, contributing to sustainable energy conversion and environmental remediation π. His international exposure and deep expertise make him a valuable contributor to the field of nano-opto-electro-mechanical systems.
Professional Profile:
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ORCID
Suitability for Best Researcher Award β Dr. Bi Fu
Dr. Bi Fu is highly suitable for the Best Researcher Award, given his focused and impactful contributions to the field of advanced functional nanomaterials for energy and environmental applications. His research uniquely blends theory and application, particularly in piezo-photocatalysis, electrospun nanofibers, and ferroelectric/multiferroic materials, addressing critical global challenges such as renewable energy and environmental remediation. With over 24 high-impact publications in top-tier journals like Nano Energy and Nanoscale, Dr. Fu has already established a strong scientific reputation and is emerging as a global thought leader in his domain.
π Education & Experience
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π Ph.D. in Physics, Xiβan Jiaotong University (2016)
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π Visiting Scholar, Kettering University, USA (2015β2016)
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π M.S. in Condensed Matter Physics, Lanzhou University of Technology
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π B.S. in Physics, Hubei Normal University
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π¨βπ« Lecturer, Guangdong Polytechnic Normal University (2021βPresent)
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π¬ Research Associate, Southern University of Science and Technology
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π¬ Research Associate, Shenzhen Institutes of Advanced Technology, CAS
π Professional DevelopmentΒ
Dr. Bi Fu has demonstrated a consistent commitment to academic and professional excellence through international collaboration and interdisciplinary research π. During his tenure as a visiting scholar at Kettering University πΊπΈ, he enhanced his global perspective and technical skillset. At institutions like SIAT and SUSTech π’, he worked with elite teams in advanced materials and energy systems. As a lecturer, he not only delivers general physics education π but also mentors students in experimental nanoscience. His hands-on experience with electrospinning, magnetoelectric coupling, and energy storage positions him as a thought leader in applied physics and materials innovation π‘.
π Research Focus Category
Dr. Bi Fuβs research falls under the category of Advanced Functional Nanomaterials for Energy and Environmental Applications β‘π±. His work explores the interface of ferroelectric and multiferroic materials, emphasizing piezo-photocatalysis, a promising solution for renewable energy conversion and pollution reduction π. He specializes in electrospun nanofibers, which serve as platforms for enhancing piezoelectric and photocatalytic effects. His studies target nano-opto-electro-mechanical systems, advancing both fundamental science and practical applications such as water purification, self-powered devices, and next-generation sensors π§ͺ. His interdisciplinary work contributes to sustainability and green technology πβ»οΈ.
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Awards and Honors
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π Excellent Doctoral Thesis Award, Xiβan Jiaotong University (2019)
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π§ Outstanding Youth Fund, Shenzhen Institutes of Advanced Technology (2016)
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π National Doctoral Scholarship, China (2015)
Publication Top Notes
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π Electrospun Ba(Tiβ.ββZrβ.ββ)Oβ-0.5(Baβ.ββCaβ.ββ)TiOβ-CoFeβOβ multiferroic hybrid nanofiber for localized piezocatalytic degradation of organic pollutants β 2025 β πΒ
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π Mechanically induced built-in electric field in BCTZ nanostructures for piezocatalysis: Experiments and modeling β 2024 β π Cited by: 1 ScienceDirect
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π Enhanced piezotronics by single-crystalline ferroelectrics for uniformly strengthening the piezo-photocatalysis of electrospun BaTiOβ@TiOβ nanofibers β 2022 β πΒ
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π Modulation of electric dipoles inside electrospun BaTiOβ@TiOβ core-shell nanofibers for enhanced piezo-photocatalytic degradation of organic pollutants β 2022 β πΒ
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π Dipole-Moment Induced Phototaxis and Fuel-Free Propulsion of ZnO/Pt Janus Micromotors β 2021 β πΒ
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π Isotropic Hedgehog-Shaped-TiOβ/Functional-Multiwall-Carbon-Nanotube Micromotors with Phototactic Motility in Fuel-Free Environments β 2021 β πΒ
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π Epitaxial array of FeβOβ nanodots for high rate high capacity conversion type lithium ion batteries electrode with long cycling life β 2020 β πΒ
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π Three-dimensional mesoporous Ξ³-FeβOβ@carbon nanofiber network as high performance anode material for lithium- and sodium-ion batteries β 2020 β πΒ
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π Freestanding SnS Carbon Composite Nanofiber Material with Excellent Electrochemical Performance as Binder-Free Negative Electrode for Lithium-ion Batteries β 2020 β πΒ
Conclusion
Dr. Bi Fu exemplifies the qualities of a Best Researcher Award recipient through his innovative, interdisciplinary, and internationally recognized work in nanomaterials for energy and environmental sustainability. His scientific rigor, publication record, and research relevance make him a standout candidate poised to shape the future of green technologies and applied materials science.