Design parameters for enhanced photon absorption in vertically aligned silicon nanowire arrays

Superior photon absorption in ordered nanowire arrays has been demonstrated recently. However, systematic studies are still missing to explore the limits of their implementation as functional photonic devices. With emphasis on silicon nanowires, we investigated the effects of nanowire diameter, leng...

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Published inNanoscale research letters Vol. 9; no. 1; p. 511
Main Authors Jäger, Stefan T, Strehle, Steffen
Format Journal Article
LanguageEnglish
Published New York Springer New York 19.09.2014
Springer Nature B.V
Springer
Subjects
Chemistry and Materials Science
Materials Science
Molecular Medicine
Nano Express
Nanochemistry
Nanoscale Science and Technology
Nanotechnology
Nanotechnology and Microengineering
Solar cell
3D simulations
Light absorption
Nanowire array
Photon harvesting
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Abstract Superior photon absorption in ordered nanowire arrays has been demonstrated recently. However, systematic studies are still missing to explore the limits of their implementation as functional photonic devices. With emphasis on silicon nanowires, we investigated the effects of nanowire diameter, length, morphology, and pitch on the photon absorption within the visible solar spectrum based on simulations. Our results reveal that these parameters are crucial but disclose a path to improve the absorbance drastically. PACS 78.40.Fy; 78.67.Uh; 78.67.-n
AbstractList Superior photon absorption in ordered nanowire arrays has been demonstrated recently. However, systematic studies are still missing to explore the limits of their implementation as functional photonic devices. With emphasis on silicon nanowires, we investigated the effects of nanowire diameter, length, morphology, and pitch on the photon absorption within the visible solar spectrum based on simulations. Our results reveal that these parameters are crucial but disclose a path to improve the absorbance drastically. PACS 78.40.Fy; 78.67.Uh; 78.67.-n
Superior photon absorption in ordered nanowire arrays has been demonstrated recently. However, systematic studies are still missing to explore the limits of their implementation as functional photonic devices. With emphasis on silicon nanowires, we investigated the effects of nanowire diameter, length, morphology, and pitch on the photon absorption within the visible solar spectrum based on simulations. Our results reveal that these parameters are crucial but disclose a path to improve the absorbance drastically. PACS78.40.Fy; 78.67.Uh; 78.67.-n.
Superior photon absorption in ordered nanowire arrays has been demonstrated recently. However, systematic studies are still missing to explore the limits of their implementation as functional photonic devices. With emphasis on silicon nanowires, we investigated the effects of nanowire diameter, length, morphology, and pitch on the photon absorption within the visible solar spectrum based on simulations. Our results reveal that these parameters are crucial but disclose a path to improve the absorbance drastically. 78.40.Fy; 78.67.Uh; 78.67.-n
Superior photon absorption in ordered nanowire arrays has been demonstrated recently. However, systematic studies are still missing to explore the limits of their implementation as functional photonic devices. With emphasis on silicon nanowires, we investigated the effects of nanowire diameter, length, morphology, and pitch on the photon absorption within the visible solar spectrum based on simulations. Our results reveal that these parameters are crucial but disclose a path to improve the absorbance drastically. 78.40.Fy; 78.67.Uh; 78.67.-n.
Superior photon absorption in ordered nanowire arrays has been demonstrated recently. However, systematic studies are still missing to explore the limits of their implementation as functional photonic devices. With emphasis on silicon nanowires, we investigated the effects of nanowire diameter, length, morphology, and pitch on the photon absorption within the visible solar spectrum based on simulations. Our results reveal that these parameters are crucial but disclose a path to improve the absorbance drastically.
ArticleNumber 511
Author Jäger, Stefan T
Strehle, Steffen
AuthorAffiliation 1 Institute of Electron Devices and Circuits, Ulm University, Albert-Einstein-Allee 45, 89081 Ulm, Germany
AuthorAffiliation_xml – name: 1 Institute of Electron Devices and Circuits, Ulm University, Albert-Einstein-Allee 45, 89081 Ulm, Germany
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  surname: Strehle
  fullname: Strehle, Steffen
  email: steffen.strehle@uni-ulm.de
  organization: Institute of Electron Devices and Circuits, Ulm University
BackLink https://www.ncbi.nlm.nih.gov/pubmed/25276106$$D View this record in MEDLINE/PubMed
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Copyright Jäger and Strehle; licensee Springer. 2014. This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited.
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Copyright © 2014 Jäger and Strehle; licensee Springer. 2014 Jäger and Strehle; licensee Springer.
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– notice: The Author(s) 2014
– notice: Copyright © 2014 Jäger and Strehle; licensee Springer. 2014 Jäger and Strehle; licensee Springer.
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Issue 1
Keywords Solar cell
3D simulations
Light absorption
Nanowire array
Photon harvesting
Language English
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Snippet Superior photon absorption in ordered nanowire arrays has been demonstrated recently. However, systematic studies are still missing to explore the limits of...
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SubjectTerms Chemistry and Materials Science
Materials Science
Molecular Medicine
Nano Express
Nanochemistry
Nanoscale Science and Technology
Nanotechnology
Nanotechnology and Microengineering
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Title Design parameters for enhanced photon absorption in vertically aligned silicon nanowire arrays
URI https://link.springer.com/article/10.1186/1556-276X-9-511
https://www.ncbi.nlm.nih.gov/pubmed/25276106
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