Assoc Prof Dr. Bin Wang, Xi’an Jiaotong University , China
Profile
Early Academic Pursuits
- Bin Wang obtained his Ph.D. in Thermal Engineering from Xi’an Jiaotong University in 2016. During his doctoral studies, he focused on advanced energy technologies, laying the foundation for his future research in nanomaterials and catalysis. His early academic achievements showcased a keen interest in both theoretical and practical aspects of thermal engineering.
Professional Endeavors
- Currently, Bin Wang holds the position of Associate Professor in the School of Physics at Xi’an Jiaotong University. His career has been marked by a deep commitment to academic excellence and research innovation. As a faculty member, he contributes significantly to the university’s academic and research environment, mentoring students and collaborating with peers both locally and internationally.
CONTRIBUTIONS AND RESEARCH FOCUS
- Bin Wang’s research interests are centered around the synthesis of inorganic nanomaterials for electrolysis and photocatalysis. His work focuses on developing novel materials and techniques to improve the efficiency and sustainability of energy production processes, particularly in the fields of hydrogen production through water splitting and carbon dioxide reduction.
Impact and Influence
- Bin Wang’s research in the field of nanomaterials has significantly impacted the energy and materials science community. His innovative methods in synthesizing efficient catalysts for electrochemical and photochemical reactions have paved the way for more sustainable energy solutions. His work is widely recognized for contributing to the development of green energy technologies, addressing global challenges related to energy consumption and environmental protection.
ACADEMIC CITES AND RECOGNITION
Bin Wang’s academic contributions are well-documented, with numerous citations in high-impact journals. His research has been cited by peers in a variety of disciplines, reflecting the broad relevance and application of his work. His h-index and citation count continue to rise, indicating ongoing influence in the field of thermal engineering and nanomaterials.\
LEGACY AND FUTURE CONTRIBUTIONS
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Looking ahead, Bin Wang is expected to continue pushing the boundaries of his field. His future contributions will likely focus on refining nanomaterial synthesis processes and exploring new applications in renewable energy systems. His dedication to improving the efficiency and accessibility of sustainable technologies ensures that his work will remain influential for years to come.
PUBLICATIONS
- Hierarchical core-shell Ce-doped NiO@MoO2 architecture with Ni 3d-band center modulation for enhanced high-current-density oxygen evolution
Authors: He, H., Shang, F., An, B., Liang, C., Wang, B.
Journal: Applied Catalysis B: Environmental, 2024, 358, 124455 - Correction to: Hydrogenated borophene enabled synthesis of multielement intermetallic catalysts
Authors: Zeng, X., Jing, Y., Gao, S., Yao, Y., Yang, S.
Journal: Nature Communications, 2024, 15(1), 3614 - Boosting Peroxymonosulfate Activation via Co-Based LDH-Derived Magnetic Catalysts: A Dynamic and Static State Assessment of Efficient Radical-Assisted Electron Transfer Processes
Authors: Yang, W., Xia, J., Shang, F., Liang, C., Shao, G.
Journal: Energy and Environmental Materials, 2024, 7(5), e12701 - Hetero-nanojunction armored with carbon layer for boosting water oxidation over RuO2 in acid
Authors: Shang, F., He, H., Lin, Y., Yang, S., Wang, B.
Journal: Inorganic Chemistry Frontiers, 2024, 11(16), pp. 5265–5272 - Dual-active-center in Co doping LiNbO3 for enhanced CO2 photoreduction in pure water
Authors: Sun, L., Cai, H., Wang, B., Yang, Z., Yang, S.
Journal: Applied Catalysis B: Environmental, 2024, 347, 123789
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