LAPSE:2023.33657v1
Published Article
LAPSE:2023.33657v1
Comparative Simulations of Conductive Nitrides as Alternative Plasmonic Nanostructures for Solar Cells
April 21, 2023
Abstract
Particle layers employing conductive transition metal nitrides have been proposed as possible alternative plasmonic materials for photovoltaic applications due to their reduced losses compared to metal nanostructures. We critically compare the potential photocurrent gain from an additional layer made of nanopillars of nitrides with other material classes obtained in an optimized c-Si baseline solar cell, considering an experimental doping profile. A relative photocurrent gain enhancement of on average 5% to 10% is observed, achieving for a few scenarios around 30% gain. The local field enhancement is moderate around the resonances for nitrides which spread over the whole ultraviolet and visible range. We can characterize two types of nitrides: nitrides for which the shading effect remains a problem similar to for metals, and others which behave like dielectric scatterers with high photocurrent gain.
Particle layers employing conductive transition metal nitrides have been proposed as possible alternative plasmonic materials for photovoltaic applications due to their reduced losses compared to metal nanostructures. We critically compare the potential photocurrent gain from an additional layer made of nanopillars of nitrides with other material classes obtained in an optimized c-Si baseline solar cell, considering an experimental doping profile. A relative photocurrent gain enhancement of on average 5% to 10% is observed, achieving for a few scenarios around 30% gain. The local field enhancement is moderate around the resonances for nitrides which spread over the whole ultraviolet and visible range. We can characterize two types of nitrides: nitrides for which the shading effect remains a problem similar to for metals, and others which behave like dielectric scatterers with high photocurrent gain.
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Keywords
conductive transition metal nitrides, nanostructures, solar cells, theory and simulation
Subject
Suggested Citation
David C, Koduvelikulathu LJ, Kopecek R. Comparative Simulations of Conductive Nitrides as Alternative Plasmonic Nanostructures for Solar Cells. (2023). LAPSE:2023.33657v1
Author Affiliations
David C: Institute of Condensed Matter Theory and Optics, Abbe Center of Photonics, Friedrich-Schiller-Universität Jena, 07743 Jena, Germany [ORCID]
Koduvelikulathu LJ: International Solar Energy Research Center Konstanz, Rudolf-Diesel-Straße 15, 78467 Konstanz, Germany
Kopecek R: International Solar Energy Research Center Konstanz, Rudolf-Diesel-Straße 15, 78467 Konstanz, Germany
Koduvelikulathu LJ: International Solar Energy Research Center Konstanz, Rudolf-Diesel-Straße 15, 78467 Konstanz, Germany
Kopecek R: International Solar Energy Research Center Konstanz, Rudolf-Diesel-Straße 15, 78467 Konstanz, Germany
Journal Name
Energies
Volume
14
Issue
14
First Page
4236
Year
2021
Publication Date
2021-07-14
ISSN
1996-1073
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Original Submission
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PII: en14144236, Publication Type: Journal Article
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LAPSE:2023.33657v1
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https://doi.org/10.3390/en14144236
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Apr 21, 2023
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