Elemental Distribution and Structural Characterization of GaN/InGaN Core-Shell Single Nanowires by Hard X-ray Synchrotron Nanoprobes

Elemental Distribution and Structural Characterization of GaN/InGaN Core-Shell Single Nanowires by Hard X-ray Synchrotron Nanoprobes

Improvements in the spatial resolution of synchrotron-based X-ray probes have reached the nano-scale and they, nowadays, constitute a powerful platform for the study of semiconductor nanostructures and nanodevices that provides high sensitivity without destroying the material. Three complementary ha...

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Main Authors: Eleonora Secco, Heruy Taddese Mengistu, Jaime Segura-Ruíz, Gema Martínez-Criado, Alberto García-Cristóbal, Andrés Cantarero, Bartosz Foltynski, Hannes Behmenburg, Christoph Giesen, Michael Heuken, Núria Garro
Format: Article
Language:English
Published: MDPI AG 2019-05-01
Series:Nanomaterials
Subjects:
semiconductor nanowires
synchrotron probes
nano-scale resolution
Online Access:https://www.mdpi.com/2079-4991/9/5/691
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spelling doaj-47b180213ebd4b00bd0ec823080151e12020-11-25T00:59:38ZengMDPI AGNanomaterials2079-49912019-05-019569110.3390/nano9050691nano9050691Elemental Distribution and Structural Characterization of GaN/InGaN Core-Shell Single Nanowires by Hard X-ray Synchrotron NanoprobesEleonora Secco0Heruy Taddese Mengistu1Jaime Segura-Ruíz2Gema Martínez-Criado3Alberto García-Cristóbal4Andrés Cantarero5Bartosz Foltynski6Hannes Behmenburg7Christoph Giesen8Michael Heuken9Núria Garro10Institut de Ciència dels Materials (ICMUV), Universitat de València, 46980 Paterna (València), SpainInstitut de Ciència dels Materials (ICMUV), Universitat de València, 46980 Paterna (València), SpainESRF—The European Synchrotron, 71 avenue des Martyrs, 38043 Grenoble, FranceESRF—The European Synchrotron, 71 avenue des Martyrs, 38043 Grenoble, FranceInstitut de Ciència dels Materials (ICMUV), Universitat de València, 46980 Paterna (València), SpainInstitut de Ciència Maolecular (ICMOL), Universitat de València, 46980 Paterna (València), SpainAIXTRON SE, Dornkaulstrasse 2, 52134 Herzogenrath, GermanyAIXTRON SE, Dornkaulstrasse 2, 52134 Herzogenrath, GermanyAIXTRON SE, Dornkaulstrasse 2, 52134 Herzogenrath, GermanyAIXTRON SE, Dornkaulstrasse 2, 52134 Herzogenrath, GermanyInstitut de Ciència dels Materials (ICMUV), Universitat de València, 46980 Paterna (València), SpainImprovements in the spatial resolution of synchrotron-based X-ray probes have reached the nano-scale and they, nowadays, constitute a powerful platform for the study of semiconductor nanostructures and nanodevices that provides high sensitivity without destroying the material. Three complementary hard X-ray synchrotron techniques at the nanoscale have been applied to the study of individual nanowires (NWs) containing non-polar GaN/InGaN multi-quantum-wells. The trace elemental sensitivity of X-ray fluorescence allows one to determine the In concentration of the quantum wells and their inhomogeneities along the NW. It is also possible to rule out any contamination from the gold nanoparticle catalyst employed during the NW growth. X-ray diffraction and X-ray absorption near edge-structure probe long- and short-range order, respectively, and lead us to the conclusion that while the GaN core and barriers are fully relaxed, there is an induced strain in InGaN layers corresponding to a perfect lattice matching with the GaN core. The photoluminescence spectrum of non-polar InGaN quntum wells is affected by strain and the inhomogeneous alloy distribution but still exhibits a reasonable 20% relative internal quantum efficiency.https://www.mdpi.com/2079-4991/9/5/691semiconductor nanowiressynchrotron probesnano-scale resolution
collection DOAJ
language English
format Article
sources DOAJ
author Eleonora Secco
Heruy Taddese Mengistu
Jaime Segura-Ruíz
Gema Martínez-Criado
Alberto García-Cristóbal
Andrés Cantarero
Bartosz Foltynski
Hannes Behmenburg
Christoph Giesen
Michael Heuken
Núria Garro
spellingShingle Eleonora Secco
Heruy Taddese Mengistu
Jaime Segura-Ruíz
Gema Martínez-Criado
Alberto García-Cristóbal
Andrés Cantarero
Bartosz Foltynski
Hannes Behmenburg
Christoph Giesen
Michael Heuken
Núria Garro
Elemental Distribution and Structural Characterization of GaN/InGaN Core-Shell Single Nanowires by Hard X-ray Synchrotron Nanoprobes
Nanomaterials
semiconductor nanowires
synchrotron probes
nano-scale resolution
author_facet Eleonora Secco
Heruy Taddese Mengistu
Jaime Segura-Ruíz
Gema Martínez-Criado
Alberto García-Cristóbal
Andrés Cantarero
Bartosz Foltynski
Hannes Behmenburg
Christoph Giesen
Michael Heuken
Núria Garro
author_sort Eleonora Secco
title Elemental Distribution and Structural Characterization of GaN/InGaN Core-Shell Single Nanowires by Hard X-ray Synchrotron Nanoprobes
title_short Elemental Distribution and Structural Characterization of GaN/InGaN Core-Shell Single Nanowires by Hard X-ray Synchrotron Nanoprobes
title_full Elemental Distribution and Structural Characterization of GaN/InGaN Core-Shell Single Nanowires by Hard X-ray Synchrotron Nanoprobes
title_fullStr Elemental Distribution and Structural Characterization of GaN/InGaN Core-Shell Single Nanowires by Hard X-ray Synchrotron Nanoprobes
title_full_unstemmed Elemental Distribution and Structural Characterization of GaN/InGaN Core-Shell Single Nanowires by Hard X-ray Synchrotron Nanoprobes
title_sort elemental distribution and structural characterization of gan/ingan core-shell single nanowires by hard x-ray synchrotron nanoprobes
publisher MDPI AG
series Nanomaterials
issn 2079-4991
publishDate 2019-05-01
description Improvements in the spatial resolution of synchrotron-based X-ray probes have reached the nano-scale and they, nowadays, constitute a powerful platform for the study of semiconductor nanostructures and nanodevices that provides high sensitivity without destroying the material. Three complementary hard X-ray synchrotron techniques at the nanoscale have been applied to the study of individual nanowires (NWs) containing non-polar GaN/InGaN multi-quantum-wells. The trace elemental sensitivity of X-ray fluorescence allows one to determine the In concentration of the quantum wells and their inhomogeneities along the NW. It is also possible to rule out any contamination from the gold nanoparticle catalyst employed during the NW growth. X-ray diffraction and X-ray absorption near edge-structure probe long- and short-range order, respectively, and lead us to the conclusion that while the GaN core and barriers are fully relaxed, there is an induced strain in InGaN layers corresponding to a perfect lattice matching with the GaN core. The photoluminescence spectrum of non-polar InGaN quntum wells is affected by strain and the inhomogeneous alloy distribution but still exhibits a reasonable 20% relative internal quantum efficiency.
topic semiconductor nanowires
synchrotron probes
nano-scale resolution
url https://www.mdpi.com/2079-4991/9/5/691
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