Herlina Arianita Dewi focuses on perovskite solar cells, with strong expertise in scalable fabrication, thin-film engineering, and device optimization. Her work spans semitransparent photovoltaics, co-evaporated perovskite absorbers, and wide-bandgap perovskite devices, with the broader goal of advancing high-performance solar technologies suitable for real-world application.

Daniela De Luca works on next-generation perovskite solar cells, with particular emphasis on scalable manufacturing and vacuum-based processing approaches. Her research is centered on using Hybrid methods translating metal halide perovskites toward industrially relevant, large-area device fabrication while maintaining strong performance and material quality.

Riyas Ahmad is interested in crystal growth, film formation, and structural control in hybrid perovskites. His work focuses on crystallization pathways, oriented film growth, and the relationship between microstructure and device performance, contributing to the development of highly crystalline and efficient perovskite solar cells. His primary method of synthesis is Hybrid deposition.

Thambidurai Mariyappan works on perovskite solar-cell interfaces and transport layers, with a focus on interfacial engineering, passivation, and charge extraction. He primarily use solution based synthesis. His research aims to improve device efficiency and stability through better control of carrier transport and interface quality in high-performance perovskite photovoltaics.