Design and Optimization of Plasmonic Nanoparticles-Enhanced Perovskite Solar Cells Using the FDTD Method.-Reference-Cited by-同舟云学术

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

Published:2024-03-13 Issue:1 Volume:13 Page:43-56
ISSN:2414-6013
Container-title:Solar Energy and Sustainable Development Journal
language:
Short-container-title:jsesd

Author:

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

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.

Publisher

Libyan Center for Solar Energy Research and Studies

Reference35 articles.

1. Y. F. Nassar, El-Khozondar, H. J., Alatrash, A., Ahmed, B., Elzer, R., Ahmed, A., Imbayah, I., Alsharif, A., Khaleel, M., "Assessing the viability of solar and wind energy technologies in semi-arid and arid regions: a case study of Libya’s climatic conditions," Applied solar energy, vol. 60, no. 1, p. under press, 2024.

2. A. H. Alsharif, Ahmed, A. A., Nassar, Y. F., Khaleel, M. M., El-Khozondar, H. J., Alhoudier, T. E., Esmail, E. M. , "Mitigation of dust impact on solar photovoltaics performance considering Libyan climate zone: a review," Wadi Alshatti Univeristy Journal of pure and applied sciences, vol. 1, no. 1, pp. 22-27, 2023.

3. Y. F. Nassar, Abdunnabi, M. J., Sbeta, M. N., Hafez, A. A., Amer, K. A., Ahmed, A. Y., Belgasim, B., "Dynamic analysis and sizing optimization of a pumped hydroelectric storage-integrated hybrid PV/Wind system: A case study," Energy Conversion and Management, vol. 229, p. 113744, 2021.

4. H. J. El-Khozondar, El-batta, F., EL-Khozondar, R. J., Nassar, Y., Alramlawi, M., Alsadi, S., "Standalone hybrid PV/wind/diesel-electric generator system for a COVID-19 quarantine center," Environmental Progress & Sustainable Energy, vol. 2, no. 3, p. e14049, 2023.

5. Y. F. Nassar, Alsadi, S. Y., El-Khozondar, H. J., Ismail, M. S., Al-Maghalseh, M., Khatib, T., Sa’ed, J. A., Mushtaha, M. H., Djerafi, T., "Design of an Isolated Renewable Hybrid Energy System: A Case Study," Materials for Renewable and Sustainable Energy, vol. 11, no. 3, pp. 225-240., 2022.