Doctorate at Hebei University | China
Professional Profile
Scopus
👨‍🎓 Educational Background
Dr. Bangfu Ding has an extensive educational background that has shaped his expertise in condensed matter physics and materials physics. He completed his Doctoral Degree in Condensed Matter Physics at Beihang University from 2012 to 2016. His research during this period focused on Materials Physics, where he explored the intricate properties and behaviors of materials at the atomic and molecular levels. Prior to his doctoral studies, Dr. Ding earned his Master’s Degree in Condensed Matter Physics from Jishou University between 2009 and 2012. His research at Jishou University centered around Quantum Information, a field that examines how quantum systems can be used for information processing. Dr. Ding’s academic journey began with a Bachelor’s Degree in Physics from Chaohu University, where he studied from 2002 to 2006. This early education laid the foundation for his career in physics and sparked his deep interest in the theoretical and experimental aspects of condensed matter physics.
🏫 Academic and Research Focus
Dr. Bangfu Ding holds a Ph.D. in Materials Physics from Beihang University, where his research centered around Condensed Matter Physics and Materials Physics. His master’s degree focused on quantum information at Jishou University. His early academic experience at Chaohu University set the foundation for his career in Physics, ultimately leading to significant expertise in materials and condensed matter.
Publications Top Notedđź“ť
Constructing a novel double Z-type junction BaTiO3/ZnIn2S4/ZnTiO3 by a new chemical reaction for antibiotics degradation, H2 production, and CO2 reduction
Authors: Ding, B., Zuo, K., Zhang, L., Mao, L., Zhang, J.
Journal: Journal of Environmental Chemical Engineering
Year: 2024
Enhancing thermoelectric performance of p-type SnTe through manipulating energy band structures and decreasing electronic thermal conductivity
Authors: Qian, X., Guo, H.-R., Lyu, J.-X., Wang, J.-L., Wang, S.-F.
Journal: Rare Metals
Year: 2024
Huge redshift of absorption edge in a novel Z-type Bi2Sn2O7/α-Bi2O3 junction for highly efficiently visible light degradation of norfloxacin and bisphenol AF
Authors: Yu, M., Zuo, K., Ding, B., Mao, L., Zhang, J.
Journal: Journal of Environmental Chemical Engineering
Year: 2024
Enhanced thermoelectric properties of layered anisotropic PbBi2Te4 through the suppression of bipolar diffusion effect via Se alloying
Authors: Qian, X., Jin, H., Li, X., Wang, J., Wang, S.-F.
Journal: Applied Physics Letters
Year: 2024
Construction of a novel S-type Îł-Bi2O3/CeO2 heterojunction for highly efficient photocatalytic degradation of antibiotics
Authors: Cao, J., Liu, S., Wu, J., Zheng, S., Zhang, J.
Journal: Physical Chemistry Chemical Physics
Year: 2024