Our research centers on the development of advanced materials for renewable energy applications, with a particular emphasis on photovoltaic devices. We strive to deepen our understanding of the key factors that influence solar cell performance, from material properties to device-level interactions.
Through comprehensive experimental and theoretical investigations, we aim to uncover the fundamental phenomena that govern the efficiency and stability of solar energy technologies—ultimately contributing to the design of more effective and sustainable photovoltaic systems.
I am looking forward to working with motivated B.Tech, M.Tech, and Ph.D. students who are passionate about semiconductor materials and devices.
Our group is actively involved in developing and studying chalcogenide and chalcogenide–perovskite thin films for electronic and photovoltaic device applications. Current materials of interest include:
Antimony Sulfide (Sb₂S₃)
Silver Bismuth Sulfide (AgBiS₂)
Barium Zirconium Sulfide (BaZrS₃)
We focus on understanding the fundamental mechanisms that govern material performance and on engineering novel device architectures for efficient solar energy conversion.
If these topics intrigue you and you are eager to contribute to innovative research in renewable energy materials, feel free to reach out!