Fingerprints of a size-dependent crossover in the dimensionality of electronic conduction in Au-seeded Ge nanowires

Maria Koleśnik-Gray; Gillian Collins; Justin D. Holmes; Vojislav Krstić

doi:10.3762/bjnano.7.151

Fingerprints of a size-dependent crossover in the dimensionality of electronic conduction in Au-seeded Ge nanowires

Maria Koleśnik-Gray
, Gillian Collins
, Justin D. Holmes
, Vojislav Krstić

School of Chemistry

Friedrich-Alexander University Erlangen-Nürnberg

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

Abstract

We studied the electrical transport properties of Au-seeded germanium nanowires with radii ranging from 11 to 80 nm at ambient conditions. We found a non-trivial dependence of the electrical conductivity, mobility and carrier density on the radius size. In particular, two regimes were identified for large (lightly doped) and small (stronger doped) nanowires in which the charge-carrier drift is dominated by electron-phonon and ionized-impurity scattering, respectively. This goes in hand with the finding that the electrostatic properties for radii below ca. 37 nm have quasi one-dimensional character as reflected by the extracted screening lengths.

Original language	English
Pages (from-to)	1574-1578
Number of pages	5
Journal	Beilstein Journal of Nanotechnology
Volume	7
Issue number	1
DOIs	https://doi.org/10.3762/bjnano.7.151
Publication status	Published - 2016

Keywords

Electrical transport
Germanium nanowires
Quasi-1D confinement
Screening length
VLS growth

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10.3762/bjnano.7.151

https://hdl.handle.net/10468/3274Licence: CC BY

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title = "Fingerprints of a size-dependent crossover in the dimensionality of electronic conduction in Au-seeded Ge nanowires",

abstract = "We studied the electrical transport properties of Au-seeded germanium nanowires with radii ranging from 11 to 80 nm at ambient conditions. We found a non-trivial dependence of the electrical conductivity, mobility and carrier density on the radius size. In particular, two regimes were identified for large (lightly doped) and small (stronger doped) nanowires in which the charge-carrier drift is dominated by electron-phonon and ionized-impurity scattering, respectively. This goes in hand with the finding that the electrostatic properties for radii below ca. 37 nm have quasi one-dimensional character as reflected by the extracted screening lengths.",

keywords = "Electrical transport, Germanium nanowires, Quasi-1D confinement, Screening length, VLS growth",

author = "Maria Kole{\'s}nik-Gray and Gillian Collins and Holmes, \{Justin D.\} and Vojislav Krsti{\'c}",

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AU - Koleśnik-Gray, Maria

AU - Collins, Gillian

AU - Holmes, Justin D.

AU - Krstić, Vojislav

PY - 2016

Y1 - 2016

N2 - We studied the electrical transport properties of Au-seeded germanium nanowires with radii ranging from 11 to 80 nm at ambient conditions. We found a non-trivial dependence of the electrical conductivity, mobility and carrier density on the radius size. In particular, two regimes were identified for large (lightly doped) and small (stronger doped) nanowires in which the charge-carrier drift is dominated by electron-phonon and ionized-impurity scattering, respectively. This goes in hand with the finding that the electrostatic properties for radii below ca. 37 nm have quasi one-dimensional character as reflected by the extracted screening lengths.

AB - We studied the electrical transport properties of Au-seeded germanium nanowires with radii ranging from 11 to 80 nm at ambient conditions. We found a non-trivial dependence of the electrical conductivity, mobility and carrier density on the radius size. In particular, two regimes were identified for large (lightly doped) and small (stronger doped) nanowires in which the charge-carrier drift is dominated by electron-phonon and ionized-impurity scattering, respectively. This goes in hand with the finding that the electrostatic properties for radii below ca. 37 nm have quasi one-dimensional character as reflected by the extracted screening lengths.

KW - Electrical transport

KW - Germanium nanowires

KW - Quasi-1D confinement

KW - Screening length

KW - VLS growth

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JO - Beilstein Journal of Nanotechnology

JF - Beilstein Journal of Nanotechnology

IS - 1

ER -

Fingerprints of a size-dependent crossover in the dimensionality of electronic conduction in Au-seeded Ge nanowires

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