GaAs Core/SrTiO3 Shell Nanowires Grown by Molecular Beam Epitaxy

X. Guan; J. Becdelievre; B. Meunier; A. Benali; G. Saint-Girons; R. Bachelet; P. Regreny; C. Botella; G. Grenet; N. P. Blanchard; X. Jaurand; M. G. Silly; F. Sirotti; N. Chauvin; M. Gendry; J. Penuelas

doi:10.1021/acs.nanolett.5b05182

GaAs Core/SrTiO₃ Shell Nanowires Grown by Molecular Beam Epitaxy

X. Guan
, J. Becdelievre
, B. Meunier
, A. Benali
, G. Saint-Girons
, R. Bachelet
, P. Regreny
, C. Botella
, G. Grenet
, N. P. Blanchard
, X. Jaurand
, M. G. Silly
, F. Sirotti
, N. Chauvin
, M. Gendry
, J. Penuelas

Université de Lyon
IGFL, Université de Lyon, Université Lyon 1
Synchrotron SOLEIL

Research output: Contribution to journal › Article › peer-review

Abstract

We have studied the growth of a SrTiO₃ shell on self-catalyzed GaAs nanowires grown by vapor-liquid-solid assisted molecular beam epitaxy on Si(111) substrates. To control the growth of the SrTiO₃ shell, the GaAs nanowires were protected using an arsenic capping/decapping procedure in order to prevent uncontrolled oxidation and/or contamination of the nanowire facets. Reflection high energy electron diffraction, scanning electron microscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy were performed to determine the structural, chemical, and morphological properties of the heterostructured nanowires. Using adapted oxide growth conditions, it is shown that most of the perovskite structure SrTiO₃ shell appears to be oriented with respect to the GaAs lattice. These results are promising for achieving one-dimensional epitaxial semiconductor core/functional oxide shell nanostructures.

Original language	English
Pages (from-to)	2393-2399
Number of pages	7
Journal	Nano Letters
Volume	16
Issue number	4
DOIs	https://doi.org/10.1021/acs.nanolett.5b05182
Publication status	Published - 13 Apr 2016
Externally published	Yes

Keywords

Core/shell nanowires
functional oxides
hybrid nanowires
interface
semiconductor

Access to Document

10.1021/acs.nanolett.5b05182

Cite this

Guan, X., Becdelievre, J., Meunier, B., Benali, A., Saint-Girons, G., Bachelet, R., Regreny, P., Botella, C., Grenet, G., Blanchard, N. P., Jaurand, X., Silly, M. G., Sirotti, F., Chauvin, N., Gendry, M., & Penuelas, J. (2016). GaAs Core/SrTiO₃ Shell Nanowires Grown by Molecular Beam Epitaxy. Nano Letters, 16(4), 2393-2399. https://doi.org/10.1021/acs.nanolett.5b05182

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title = "GaAs Core/SrTiO3 Shell Nanowires Grown by Molecular Beam Epitaxy",

abstract = "We have studied the growth of a SrTiO3 shell on self-catalyzed GaAs nanowires grown by vapor-liquid-solid assisted molecular beam epitaxy on Si(111) substrates. To control the growth of the SrTiO3 shell, the GaAs nanowires were protected using an arsenic capping/decapping procedure in order to prevent uncontrolled oxidation and/or contamination of the nanowire facets. Reflection high energy electron diffraction, scanning electron microscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy were performed to determine the structural, chemical, and morphological properties of the heterostructured nanowires. Using adapted oxide growth conditions, it is shown that most of the perovskite structure SrTiO3 shell appears to be oriented with respect to the GaAs lattice. These results are promising for achieving one-dimensional epitaxial semiconductor core/functional oxide shell nanostructures.",

keywords = "Core/shell nanowires, functional oxides, hybrid nanowires, interface, semiconductor",

author = "X. Guan and J. Becdelievre and B. Meunier and A. Benali and G. Saint-Girons and R. Bachelet and P. Regreny and C. Botella and G. Grenet and Blanchard, \{N. P.\} and X. Jaurand and Silly, \{M. G.\} and F. Sirotti and N. Chauvin and M. Gendry and J. Penuelas",

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doi = "10.1021/acs.nanolett.5b05182",

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AU - Guan, X.

AU - Becdelievre, J.

AU - Meunier, B.

AU - Benali, A.

AU - Saint-Girons, G.

AU - Bachelet, R.

AU - Regreny, P.

AU - Botella, C.

AU - Grenet, G.

AU - Blanchard, N. P.

AU - Jaurand, X.

AU - Silly, M. G.

AU - Sirotti, F.

AU - Chauvin, N.

AU - Gendry, M.

AU - Penuelas, J.

PY - 2016/4/13

Y1 - 2016/4/13

N2 - We have studied the growth of a SrTiO3 shell on self-catalyzed GaAs nanowires grown by vapor-liquid-solid assisted molecular beam epitaxy on Si(111) substrates. To control the growth of the SrTiO3 shell, the GaAs nanowires were protected using an arsenic capping/decapping procedure in order to prevent uncontrolled oxidation and/or contamination of the nanowire facets. Reflection high energy electron diffraction, scanning electron microscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy were performed to determine the structural, chemical, and morphological properties of the heterostructured nanowires. Using adapted oxide growth conditions, it is shown that most of the perovskite structure SrTiO3 shell appears to be oriented with respect to the GaAs lattice. These results are promising for achieving one-dimensional epitaxial semiconductor core/functional oxide shell nanostructures.

AB - We have studied the growth of a SrTiO3 shell on self-catalyzed GaAs nanowires grown by vapor-liquid-solid assisted molecular beam epitaxy on Si(111) substrates. To control the growth of the SrTiO3 shell, the GaAs nanowires were protected using an arsenic capping/decapping procedure in order to prevent uncontrolled oxidation and/or contamination of the nanowire facets. Reflection high energy electron diffraction, scanning electron microscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy were performed to determine the structural, chemical, and morphological properties of the heterostructured nanowires. Using adapted oxide growth conditions, it is shown that most of the perovskite structure SrTiO3 shell appears to be oriented with respect to the GaAs lattice. These results are promising for achieving one-dimensional epitaxial semiconductor core/functional oxide shell nanostructures.

KW - Core/shell nanowires

KW - functional oxides

KW - hybrid nanowires

KW - interface

KW - semiconductor

U2 - 10.1021/acs.nanolett.5b05182

DO - 10.1021/acs.nanolett.5b05182

M3 - Article

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JO - Nano Letters

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