Research
My early research centered on the development of polymer-based optical waveguides and devices. This work was critical for advancing the field of photonics, particularly in designing more efficient components for optical communication systems. The study explored novel materials and fabrication methods for creating waveguides with optimized optical properties. Additionally, I have worked with spectroscopic techniques for gas sensing, applying advanced methodologies to improve the sensitivity and accuracy of detecting various gases, contributing to environmental monitoring and industrial safety technologies.
Currently, my research focuses on solar cell design and development, with a particular emphasis on perovskite and dye-based solar cell simulation. It aims to enhance the efficiency and stability of these emerging solar technologies by leveraging advanced modeling and simulation techniques. This research has the potential to contribute to more cost-effective and sustainable energy solutions, aligning with global trends toward renewable energy sources. This work continues to bridge fundamental research with practical applications in energy generation.
You may refer to my Google Scholar for further details