Company Filing History:
Years Active: 2018
Title: Tzhung-Han Lai: Innovator in Infrared Photodetectors
Introduction
Tzhung-Han Lai is a notable inventor based in Gainesville, Florida. He has made significant contributions to the field of photodetectors, particularly through his innovative work with inorganic semiconductors. His research focuses on enhancing the stability and efficiency of photodetectors, which are crucial for various applications in technology.
Latest Patents
Tzhung-Han Lai holds a patent for "Air stable infrared photodetectors from solution-processed inorganic semiconductors." This invention features a photodetector with a photoactive layer made of semiconducting inorganic nanoparticles. These nanoparticles are strategically positioned between a hole transport electron blocking layer of a first metal oxide and an electron transport hole blocking layer of a second metal oxide. The nanoparticles are responsive to electromagnetic radiation, particularly in the infrared spectrum. The first metal oxide can be NiO, while the second can be ZnO or TiO. Notably, the design of the metal oxide layers ensures that the photodetector remains stable in air, even without an encapsulating coating. The structure of the photodetector is a P-I-N configuration, which enhances its performance.
Career Highlights
Tzhung-Han Lai is affiliated with the University of Florida Research Foundation, Incorporated. His work at this institution has allowed him to explore and develop advanced technologies in the field of photodetection. His innovative approach has garnered attention and recognition within the scientific community.
Collaborations
Tzhung-Han Lai collaborates with esteemed colleagues such as Franky So and Jesse Robert Manders. Their combined expertise contributes to the advancement of research in photodetectors and related technologies.
Conclusion
Tzhung-Han Lai's contributions to the field of infrared photodetectors exemplify the impact of innovative research in technology. His work not only enhances the functionality of photodetectors but also paves the way for future advancements in the field.