Photocatalysis presents a promising route for the sustainable transformation of carbon dioxide into value-added chemicals and fuels using light as a clean energy source. This research integrates advanced computational methods with materials engineering to guide the rational design of photocatalytic systems with high efficiency, selectivity, and long-term stability.
Key areas of interest include catalyst architecture, reaction pathways and photophysical properties. The work spans a diverse range of metal complexes embedded to MOFs. The goal is to connect fundamental studies with real-world applications to support cleaner and more sustainable chemical processes.