In recent years, perovskite solar cells have emerged as a leading technology in the field of photovoltaics due to their high efficiency, low cost, and potential for large-area fabrication. Currently, the efficiency of single-junction perovskite solar cells has reached 27%, and the technology continues to break through existing performance barriers. With ongoing advancements, perovskite solar cells show great promise in large-area processing and modularization, paving the way for large-scale commercial applications in the near future.

This project, led by Assistant Research Fellow Hou-Chin Cha from the College of Engineering, focuses on developing large-area processing and modularization techniques for perovskite solar cells. The project aims to optimize solution processing technologies, interface modification techniques, and the fabrication of high-performance large-area devices. The goal is to improve the uniformity, stability, and efficiency of the devices, advancing the commercialization of perovskite solar cells.

Additionally, we plan to recruit several international interns to participate in this project. These interns will undergo a 3- to 6-month training program, where they will gain hands-on experience in large-area perovskite solar cell fabrication and testing. This initiative aims to enhance the interns' expertise in perovskite solar technology while promoting international academic and technical exchanges.