Dr. Wang, Professor, Postdoctoral Supervisor, Director of Guangdong Optical Society, and President of Dongguan Industry-Education Integration Promotion Association. After obtaining his Ph.D. from Sun Yat-sen University in 2007, he has been working at Dongguan University of Technology. From September 2014 to September 2015, he was a visiting scholar at the College of Optics and Photonics, University of Central Florida (one of the top three optical research centers in the U.S.). His research focuses on micro-nano optical sensing technology, deep learning algorithms, and light field modulation, specializing in cross-disciplinary applications of deep learning in optoelectronics. As principal investigator, he has led 16 national, provincial, and municipal projects, including "Key Technology Development for Wafer Surface Defect Detection Based on Telecentric Lenses" and "Portable Raman Spectrometer Development Using Deep Learning." He has published over 100 papers in journals such as Advanced Functional Materials, Chaos Solitons & Fractals, Optics Express, and Optics Letters, and holds 16 invention patents and 20 utility model patents. |
Research Focus on: Micro-nano optics & devices, laser intelligent manufacturing, fiber-optic sensing, optoelectronic intelligent perception. Specifically: 1. Design and simulate micro-nano structural models to analyze their impact on optoelectronic transmission. 2. Fabricate micro-nano optical devices via laser processing, investigating light-matter interactions in metal-dielectric nanostructures for optimized design. 3. Perform multi-dimensional analysis (Raman spectroscopy, intensity, polarization) of optical fields in micro-nano components, expanding applications in optical communication, filtering, and sensing. 4. Develop AI algorithms for defect detection and classification in optoelectronic devices. |
Published over 100 papers, authorized more than 10 inventionpatents. Representative papers: 1.Simultaneously Possessing High Quantum Efficiency andThermal Robustness in a Near-Infrared Emitting ZnAlB(1-x)Gax04:Cr3+ Phosphor, Laser and Photonics Review,2024,2400750(2024). 2.Neutron-Resolved Double Spinel Host Engineering for Ultra-Broadband NR Luminescence and Cr3+, Ni2+Energy Transfer,2025,e16714. 3. Remote and in-situ monitoring of plasmon-induced catalysisreaction by fiber SERS probes,Talanta,288,127735(2025)
|
