Impact of the size of silver nanoparticle integrated in an ARC based on silicon
The controlled use of surface plasmon resonances in metallic nanostructures has attracted considerable interest in several areas, including photovoltaic devices. The diffusion of metal nanoparticles is a well-known phenomenon and has long been debated. The relative extent of absorption and dispersio...
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Mouloud Mammeri University of Tizi-Ouzou
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doaj-6e04ffe4d4cb47ab8ba7ddd4f41a7e102020-11-24T21:16:22ZengMouloud Mammeri University of Tizi-OuzouJournal of Materials and Engineering Structures2170-127X2018-07-01521531611332Impact of the size of silver nanoparticle integrated in an ARC based on siliconHichem HACHEMI0Abdelatif ZERGA1Batoul BENABADJI2Noureddine SAHOUANE3Third-generation Solar Cells, Research Unit of Materials and Renewable Energies (URMER), Abou BakrBelkaïd University, B.P. 119, Tlemcen, AlgeriaThird-generation Solar Cells, Research Unit of Materials and Renewable Energies (URMER), Abou BakrBelkaïd University, B.P. 119, Tlemcen, AlgeriaThird-generation Solar Cells, Research Unit of Materials and Renewable Energies (URMER), Abou BakrBelkaïd University, B.P. 119, Tlemcen, AlgeriaResearch Unit in Renewable Energy in the Saharan environment URER.MS, Center for the development of renewable energies, CDER, AlgeriaThe controlled use of surface plasmon resonances in metallic nanostructures has attracted considerable interest in several areas, including photovoltaic devices. The diffusion of metal nanoparticles is a well-known phenomenon and has long been debated. The relative extent of absorption and dispersion depends on the size of the nanoparticles. The deposition of metal nanoparticles on the surface of the photovoltaic cell makes it possible to increase the absorption of the incident light and to reduce the optical losses. The most commonly used metal nanoparticle deposition techniques are: Bottom-up and Top-Down. In this paper, we study the effect of the size of silver nanoparticles (np-Ag) integrated in an antireflection layer of silicon nitride. The plasmonic effect converts scattered ultraviolet rays (absorbed by np-Ag) into visible radiation. The use of the DDSCAT software has made it possible to calculate the dispersion and absorption of electromagnetic waves by nanoscale targets with arbitrary geometries using the dipole discrete approximation (DDA). DDA is used to model these particles arranged on a cubic lattice, as interactive sets of dipoles. The variance in np-Ag size allowed us to determine the optimal size that absorbs maximum UV radiation. The simulation results show that the optimal size of np-Ag is 110 nm.http://revue.ummto.dz/index.php/JMES/article/view/1672Solar cellCrystal siliconNanoparticuleDown-convertersPlasmon |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Hichem HACHEMI Abdelatif ZERGA Batoul BENABADJI Noureddine SAHOUANE |
spellingShingle |
Hichem HACHEMI Abdelatif ZERGA Batoul BENABADJI Noureddine SAHOUANE Impact of the size of silver nanoparticle integrated in an ARC based on silicon Journal of Materials and Engineering Structures Solar cell Crystal silicon Nanoparticule Down-converters Plasmon |
author_facet |
Hichem HACHEMI Abdelatif ZERGA Batoul BENABADJI Noureddine SAHOUANE |
author_sort |
Hichem HACHEMI |
title |
Impact of the size of silver nanoparticle integrated in an ARC based on silicon |
title_short |
Impact of the size of silver nanoparticle integrated in an ARC based on silicon |
title_full |
Impact of the size of silver nanoparticle integrated in an ARC based on silicon |
title_fullStr |
Impact of the size of silver nanoparticle integrated in an ARC based on silicon |
title_full_unstemmed |
Impact of the size of silver nanoparticle integrated in an ARC based on silicon |
title_sort |
impact of the size of silver nanoparticle integrated in an arc based on silicon |
publisher |
Mouloud Mammeri University of Tizi-Ouzou |
series |
Journal of Materials and Engineering Structures |
issn |
2170-127X |
publishDate |
2018-07-01 |
description |
The controlled use of surface plasmon resonances in metallic nanostructures has attracted considerable interest in several areas, including photovoltaic devices. The diffusion of metal nanoparticles is a well-known phenomenon and has long been debated. The relative extent of absorption and dispersion depends on the size of the nanoparticles. The deposition of metal nanoparticles on the surface of the photovoltaic cell makes it possible to increase the absorption of the incident light and to reduce the optical losses. The most commonly used metal nanoparticle deposition techniques are: Bottom-up and Top-Down.
In this paper, we study the effect of the size of silver nanoparticles (np-Ag) integrated in an antireflection layer of silicon nitride. The plasmonic effect converts scattered ultraviolet rays (absorbed by np-Ag) into visible radiation. The use of the DDSCAT software has made it possible to calculate the dispersion and absorption of electromagnetic waves by nanoscale targets with arbitrary geometries using the dipole discrete approximation (DDA). DDA is used to model these particles arranged on a cubic lattice, as interactive sets of dipoles. The variance in np-Ag size allowed us to determine the optimal size that absorbs maximum UV radiation. The simulation results show that the optimal size of np-Ag is 110 nm. |
topic |
Solar cell Crystal silicon Nanoparticule Down-converters Plasmon |
url |
http://revue.ummto.dz/index.php/JMES/article/view/1672 |
work_keys_str_mv |
AT hichemhachemi impactofthesizeofsilvernanoparticleintegratedinanarcbasedonsilicon AT abdelatifzerga impactofthesizeofsilvernanoparticleintegratedinanarcbasedonsilicon AT batoulbenabadji impactofthesizeofsilvernanoparticleintegratedinanarcbasedonsilicon AT noureddinesahouane impactofthesizeofsilvernanoparticleintegratedinanarcbasedonsilicon |
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1726015776918339584 |