Dr. Lujia Cong | Semiconductor | Best Researcher Award
PHD at Northeast Normal University, China
Professional Profiles
Education
Ph.D. in Condensed Matter Physics Northeast Normal University M.S. in Condensed Matter Physics Harbin Normal University B.S. in Physics Harbin Normal University
Research Experience
Daqing Normal University Conducted extensive research in semiconductor optoelectronic devices and high-quality semiconductor thin film growth. Developed advanced techniques in optical communication and imaging technology. Collaborated with interdisciplinary teams to push the frontiers of material science and optical engineering.
Research Interests
Semiconductor Optoelectronic Devices High-Quality Semiconductor Thin Film Growth Optical Communication Imaging Technology
Research Focuse
Dr. Lu Jia Cong focuses on cutting-edge research in semiconductor optoelectronic devices, emphasizing the development of advanced photodetectors. His work includes pioneering efforts in self-powered ultraviolet and visible-light photodetectors using materials such as graphene, ZnO, and SrTiO3. Dr. Cong’s research is dedicated to optimizing device performance through innovative material engineering and treatments, leading to improvements in low-dark current, fast response times, and high-gain photodetectors. His contributions extend to the design and construction of optical communication systems, leveraging organic-inorganic hybrid perovskites. Dr. Cong’s interdisciplinary approach pushes the boundaries of material science and optical engineering, significantly impacting the field.
Publications
- High gain broadband photoconductor based on amorphous Ga2O3 and suppression of persistent photoconductivity†, Publication date: 2019.
- High-performance high-temperature solar-blind photodetector based on polycrystalline Ga2O3 film, Publication date: 2020.
- An ultra-fast, self-powered and flexible visible-light photodetector based on graphene/Cu2O/Cu gradient heterostructures†, Publication date: 2021.
- Suppression of persistent photoconductivity in high gain Ga2O3 Schottky photodetectors*, Publication date: 2021.
- Full solar-spectral reflectance of ZnO QDs/SiO2 composite pigment for thermal control coating, Publication date: 2021.
- Solar-blind UV photodetector with low-dark current and high-gain based on ZnO/Au/Ga2O3 sandwich structure,, Publication date: 2022.
- Controllable preparation of high-quality MAPbCl3 perovskite single crystal sheets, Publication date: 2023.
- Design and Construction of an Optical Communication System: Utilizing High-Performance Organic–Inorganic Hybrid Perovskite-Based Photodetectors, Publication date: 2023.
- Performance optimization of self-powered ultraviolet and short-wavelength blue photodetectors based on ZnO/SrTiO3 heterojunctions by annealing treatment†, Publication date: 2024.
- Transparent, low dark current, fast response ultraviolet and short-wavelength blue photons photodetector based on Graphene/SrTiO3 single crystal, Publication date: 2024.