👉 The claimed engineering in this project revolves around the development of a novel, high-efficiency solar energy harvesting system that integrates advanced materials and smart control mechanisms to maximize power output and minimize environmental impact. The core innovation lies in the use of perovskite-silicon tandem cells, which combine the high light absorption efficiency of perovskites with the stability and durability of silicon. These cells are optimized through nanostructuring and surface passivation techniques to enhance charge carrier mobility and reduce recombination losses. Additionally, the system incorporates a dynamic tracking mechanism that adjusts the angle of solar panels in real-time based on the sun's position, ensuring optimal exposure and energy capture throughout the day. Smart algorithms are employed to manage energy storage and distribution, integrating seamlessly with existing grid infrastructure to provide a reliable and sustainable power source while reducing reliance on fossil fuels.
