Abstract
In recent years, the eco-friendly and sustainable nature of biosynthesized nanoparticles has led to increasing interest in their use in a variety of applications. This study examines the use of biomaterials to create nanoparticles that have been shown to improve the efficiency and performance of medical devices such as radiation therapy cancer treatment machines, blood cooling systems, laboratory applications, CT scanners, and MRI machines. The study focuses on the production of the nanoparticles and the assessment of their physical characteristics, such as stability, biocompatibility, and optical and thermal properties. AI-IoT (Artificial Intelligence-Internet of Things) systems can be used to optimize the performance and energy efficiency of solar cooling panel systems. The findings indicate that because of their special characteristics, biosynthesized nanoparticles have a tremendous potential to enhance the efficiency of solar equipment. In this investigation, we investigate the biosynthesis of copper oxide, aluminum oxide, cerium oxide, and graphene oxide nanomaterials for use in solar application equipment. Furthermore, the nanoparticles exhibit enhanced optical and thermal properties, making them ideal for use in solar thermal collectors and photovoltaic cells. The study also demonstrates that the biosynthesized nanoparticles have a high degree of stability and biocompatibility, which makes them suitable for use in medical and biomedical applications. Incorporating graphene oxide nanoparticles into films increased the energy conversion efficiency by 15% compared to films without nanoparticles. The waste nanoparticles can be further used for cancer therapy, medication transport, and other medicinal procedures. Overall, the findings suggest that biosynthesized nanoparticles have the potential to revolutionize the biomedical industry by improving the performance of solar equipment and making it more sustainable and eco-friendlier.
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