Understanding degradation mechanisms, developing stabilization strategies, exploring doping techniques, and optimizing ionic and electronic transport properties for the efficient and resilient production of clean solar energy.
In our unwavering commitment to advancing solar energy technologies, a significant focus lies in unraveling the degradation mechanisms inherent in Halide perovskites. Through dedicated and comprehensive research endeavors, our goal is to gain a profound understanding of the intricate processes that impact the stability of these materials. Concurrently, we actively participate in the development of effective stabilization strategies, aiming to enhance the durability and longevity of Halide perovskites. Within the OMEGA lab, our investigations also delve into the interfaces between different layers, contributing further to the evolving landscape of perovskite-based solar technologies. Collaborative efforts extend to the exploration of innovative doping techniques that have the potential to optimize further the ionic and electronic transport properties of these materials. By synergizing these multifaceted approaches, we aspire to make substantial contributions to the efficient and resilient production of clean solar energy, thus pushing the boundaries of renewable energy solutions. Promising for the future, perovskite photovoltaics utilize low-cost, earth-abundant materials and involve simple processing techniques. Moreover, the tunable electrical and optical properties of perovskites, achieved by altering the material's chemistry, open doors to diverse applications such as tandem photovoltaics and photodetectors.