Design and Optimization of Plasmonic Nanoparticles-Enhanced Perovskite Solar Cells Using the FDTD Method.

Mohammed M. Shabat, Hala El-Khozondar, Salah A. Nassar, Guillaume Zoppi, Yasser Yasser Nassar
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Abstract

This study explores how plasmonic nanoparticles affect absorption, transmission, and reflection—three important performance metrics in organic-inorganic halide perovskite solar cells (PSCs). Through an investigation of different types of nanoparticles and their concentration in the composite layer, the study provides important information for improving PSC design in order to increase overall efficiency. The results highlight the importance of the type and volume fraction of nanoparticles in the composite layer, which influence the spectral characteristics of the solar cell, such as absorption, reflection, and transmission. These findings could encourage PSCs to be widely used as a practical and affordable renewable energy source, which would advance the development of affordable and efficient solar energy technologies.
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使用 FDTD 方法设计和优化等离子纳米粒子增强型 Perovskite 太阳能电池。
本研究探讨了质子纳米粒子如何影响吸收、透射和反射--这是有机-无机卤化物包晶太阳能电池(PSCs)的三个重要性能指标。通过研究不同类型的纳米粒子及其在复合层中的浓度,该研究为改进 PSC 设计以提高整体效率提供了重要信息。研究结果强调了复合层中纳米粒子的类型和体积分数的重要性,它们会影响太阳能电池的光谱特性,如吸收、反射和透射。这些研究结果将促进 PSCs 作为一种实用、经济的可再生能源得到广泛应用,从而推动经济、高效太阳能技术的发展。
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Methods for Improving the Absorptive Capacity of Solar Stills: Charging Systems/Techniques of Electric Vehicle: Modified-TiO2 Nanotube Arrays as a Proficient Photo-Catalyst Nanomaterial for Energy and Environmental Applications Thermoeconomic Assessments of Green Hydrogen Production Via PV&PEM Electrolyzer: Design and Optimization of Plasmonic Nanoparticles-Enhanced Perovskite Solar Cells Using the FDTD Method.
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