Dr. Yang Lun is an Associate Professor, Vice Dean, and Master’s Supervisor at the Institute of Scientific Research and Development, Hubei Normal University, and serves as Deputy Director of the Hubei Key Laboratory of Photoelectric Conversion Materials and Devices. He earned both his Bachelor’s and Doctoral degrees in Physics from Nanjing University, establishing a strong foundation in condensed matter physics, artificial intelligence, machine learning, and data science. Dr. Yang has demonstrated outstanding leadership in academia and administration, holding key positions in provincial and municipal committees, leading an Excellent Young and Middle-Aged Science and Technology Innovation Team, and serving as a technology advisor for small, medium, and micro enterprises in Hubei Province. Since joining Hubei Normal University, he has presided over numerous significant projects, including national and provincial research initiatives, industry-university collaborations, and teaching reform programs, while also contributing to high-impact research through over fifty SCI publications in international journals. His scholarly work spans semiconductor optoelectronic technology, condensed matter physics, and applied computational methods, with a strong record of mentoring students and developing professional curricula. Recognized for his academic and professional excellence, Dr. Yang has been appointed to several provincial science and technology leadership roles, participated in national research projects, and received multiple talent program selections for innovation and entrepreneurship. His contributions reflect a distinguished record of research leadership, educational impact, and professional service, positioning him as a leading figure in his field.
Profiles: Scopus
Featured Publications
1. Enhanced thermoelectric properties in Cu12Sb4S13 tetrahedrite by incorporation of carbon-based nanoparticles. Vacuum, 2025.
2. Enhancing photoresponsivity of filterless narrowband photodetectors based on 2D perovskites by engineering a gradient bandgap. Optics and Laser Technology, 2025.
3. Precisely tailoring the d-band center of nickel sulfide for boosting overall water splitting. Applied Catalysis B: Environmental, 2024.
4. Five-level anti-counterfeiting based on versatile luminescence of tri-doped double perovskites. Nano Research, 2024.
5. Complementary multisite turnover catalysis toward superefficient bifunctional seawater splitting at ampere-level current density. Advanced Materials, 2024.