Doping top-down e-beam fabricated germanium nanowires using molecular monolayers

B. Long; G. Alessio Verni; J. O'Connell; M. Shayesteh; A. Gangnaik; Y. M. Georgiev; P. Carolan; D. O'Connell; K. J. Kuhn; S. B. Clendenning; R. Nagle; R. Duffy; J. D. Holmes

doi:10.1016/j.mssp.2016.10.038

Doping top-down e-beam fabricated germanium nanowires using molecular monolayers

B. Long
, G. Alessio Verni
, J. O'Connell
, M. Shayesteh
, A. Gangnaik
, Y. M. Georgiev
, P. Carolan
, D. O'Connell
, K. J. Kuhn
, S. B. Clendenning
, R. Nagle
, R. Duffy
, J. D. Holmes

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

Abstract

This paper describes molecular layer doping of Ge nanowires. Molecules containing dopant atoms are chemically bound to a germanium surface. Subsequent annealing enables the dopant atoms from the surface bound molecules to diffuse into the underlying substrate. Electrical and material characterization was carried out, including an assessment of the Ge surface, carrier concentrations and crystal quality. Significantly, the intrinsic resistance of Ge nanowires with widths down to 30 nm, doped using MLD, was found to decrease by several orders of magnitude.

Original language	English
Pages (from-to)	196-200
Number of pages	5
Journal	Materials Science in Semiconductor Processing
Volume	62
DOIs	https://doi.org/10.1016/j.mssp.2016.10.038
Publication status	Published - 1 May 2017

Keywords

Conformal
Germanium
Molecular layer doping
Nanowires
Non-destructive
Semiconductors

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10.1016/j.mssp.2016.10.038

https://hdl.handle.net/10468/3934Licence: CC BY-NC-ND

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Long, B., Alessio Verni, G., O'Connell, J., Shayesteh, M., Gangnaik, A., Georgiev, Y. M., Carolan, P., O'Connell, D., Kuhn, K. J., Clendenning, S. B., Nagle, R., Duffy, R., & Holmes, J. D. (2017). Doping top-down e-beam fabricated germanium nanowires using molecular monolayers. Materials Science in Semiconductor Processing, 62, 196-200. https://doi.org/10.1016/j.mssp.2016.10.038

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title = "Doping top-down e-beam fabricated germanium nanowires using molecular monolayers",

abstract = "This paper describes molecular layer doping of Ge nanowires. Molecules containing dopant atoms are chemically bound to a germanium surface. Subsequent annealing enables the dopant atoms from the surface bound molecules to diffuse into the underlying substrate. Electrical and material characterization was carried out, including an assessment of the Ge surface, carrier concentrations and crystal quality. Significantly, the intrinsic resistance of Ge nanowires with widths down to 30 nm, doped using MLD, was found to decrease by several orders of magnitude.",

keywords = "Conformal, Germanium, Molecular layer doping, Nanowires, Non-destructive, Semiconductors",

author = "B. Long and \{Alessio Verni\}, G. and J. O'Connell and M. Shayesteh and A. Gangnaik and Georgiev, \{Y. M.\} and P. Carolan and D. O'Connell and Kuhn, \{K. J.\} and Clendenning, \{S. B.\} and R. Nagle and R. Duffy and Holmes, \{J. D.\}",

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year = "2017",

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doi = "10.1016/j.mssp.2016.10.038",

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T1 - Doping top-down e-beam fabricated germanium nanowires using molecular monolayers

AU - Long, B.

AU - Alessio Verni, G.

AU - O'Connell, J.

AU - Shayesteh, M.

AU - Gangnaik, A.

AU - Georgiev, Y. M.

AU - Carolan, P.

AU - O'Connell, D.

AU - Kuhn, K. J.

AU - Clendenning, S. B.

AU - Nagle, R.

AU - Duffy, R.

AU - Holmes, J. D.

PY - 2017/5/1

Y1 - 2017/5/1

N2 - This paper describes molecular layer doping of Ge nanowires. Molecules containing dopant atoms are chemically bound to a germanium surface. Subsequent annealing enables the dopant atoms from the surface bound molecules to diffuse into the underlying substrate. Electrical and material characterization was carried out, including an assessment of the Ge surface, carrier concentrations and crystal quality. Significantly, the intrinsic resistance of Ge nanowires with widths down to 30 nm, doped using MLD, was found to decrease by several orders of magnitude.

AB - This paper describes molecular layer doping of Ge nanowires. Molecules containing dopant atoms are chemically bound to a germanium surface. Subsequent annealing enables the dopant atoms from the surface bound molecules to diffuse into the underlying substrate. Electrical and material characterization was carried out, including an assessment of the Ge surface, carrier concentrations and crystal quality. Significantly, the intrinsic resistance of Ge nanowires with widths down to 30 nm, doped using MLD, was found to decrease by several orders of magnitude.

KW - Conformal

KW - Germanium

KW - Molecular layer doping

KW - Nanowires

KW - Non-destructive

KW - Semiconductors

UR - https://www.scopus.com/pages/publications/85005959424

U2 - 10.1016/j.mssp.2016.10.038

DO - 10.1016/j.mssp.2016.10.038

M3 - Article

AN - SCOPUS:85005959424

SN - 1369-8001

VL - 62

SP - 196

EP - 200

JO - Materials Science in Semiconductor Processing

JF - Materials Science in Semiconductor Processing

ER -

Doping top-down e-beam fabricated germanium nanowires using molecular monolayers

Abstract

Keywords

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