Dr. junli wang | Physics and Astronomy Classification Scheme | Best Researcher Award
Dr. Junli Wang is an accomplished researcher in optical science and engineering with a distinguished academic background and impactful contributions to the field. He earned a Master’s degree in Mechatronic Engineering from the Chinese Academy of Sciences, followed by a Ph.D. in Optical Engineering from Changchun University of Science and Technology, and later achieved a second Ph.D. in Optical Science from Tokushima University. Professionally, he served nearly two decades as a lecturer at Jilin University, where he contributed to teaching, research, and innovation across multiple domains of engineering and optics. His research interests focus on optoelectronic measurement and control technology, intelligent transportation systems, semiconductor and integrated circuit design, and nanostructure-based photocatalysis, with significant advances in simulation frameworks for charge transfer and recombination dynamics in Au/TiO2 composites. He is skilled in molecular simulation, laser systems, optical feedback mechanisms, and interdisciplinary research connecting nanomaterials to renewable energy applications. His notable achievements include leadership in national projects, publications in high-impact journals, patents on wireless conductive systems and optical technologies, and contributions as a book editor. Dr. Wang has received recognition through memberships in SPIE and MRS, international collaborations, and project leadership roles. With his expertise, innovative contributions, and dedication to advancing optical science and technology, he stands as a strong candidate for the Best Researcher Award.
Profile: ORCID
Featured Publications
Wang, J., Furube, A., & Gao, Q. (2025, March 17). Particle size dependence simulation analysis of the transient absorption charge recombination dynamics in titanium dioxide (TiO₂) nanoparticle attached with gold nanoparticle. Molecular Simulation.
Wang, J. L. (2024). Monte Carlo random walk simulation of transient absorption kinetics using reflectance and absorption of electrons at Au/TiO₂ nanoparticle boundaries. International Journal of Modern Physics B, 38(12-13), Article 2440012.
Wang, J. L. (2024, May). Simulation analysis of the transient absorption spectroscopic dynamics of charge recombination in a semiconductor attached with a gold nanoparticle using initially variable coordinates. Optoelectronics, Instrumentation and Data Processing, 60(1), 50-55.
Wang, J. L., Wang, B., Song, Z. X., & Yin, F. C. (2011). Digital laser power achieved through control of temperature and optical feedback. Lasers in Engineering, 23, 355-365.