Advanced techniques and methods for organic chemistry applications in nanoenergy materials development
DOI:
https://doi.org/10.46649/Keywords:
Photovoltaic systems; Perovskite photovoltaics; nanomaterials; Chemical materials; Nanochemistry.Abstract
Recently, interest in nanomaterials has increased, driven by the global trend toward integrating them into modern and advanced industries. This is due to their unique properties, stability, and superior performance, which distinguish them from traditional and classical materials. Among these materials, our research will integrate nanoscale perovskites with nanocomponents to produce a semiconductor nanocomposite with unique chemical and physical properties, particularly when used in catalysis, specifically in photovoltaic systems. This is demonstrated by models and simulation results using MATLAB. Thanks to its ease of fabrication and synthesis, availability, low cost, and the ability to integrate with other components to form a nanocomposite that meets demand, it achieves superior performance and efficiency compared to semiconductors such as silicon and germanium. Furthermore, it is capable of absorbing light and transporting charges, meeting a significant portion of the global energy demand.
