Resonant tunnelling features in a suspended silicon nanowire single-hole transistor

Jordi Llobet Sixto; Emiljana Krali; Chen Wang; Jordi Arbiol i Cobos; Mervyn E. Jones; Francesc Pérez Murano; Zahid A. K. Durrani

doi:10.1063/1.4936757

Resonant tunnelling features in a suspended silicon nanowire single-hole transistor

Jordi Llobet Sixto, Emiljana Krali, Chen Wang, Jordi Arbiol i Cobos, Mervyn E. Jones, Francesc Pérez Murano, Zahid A. K. Durrani

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8 Cites (Scopus)

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Suspended silicon nanowires have significant potential for a broad spectrum of device applications. A suspended p-type Si nanowire incorporating Si nanocrystal quantum dots has been used to form a single-hole transistor. Transistor fabrication uses a novel and rapid process, based on focused gallium ion beam exposure and anisotropic wet etching, generating <10 nm nanocrystals inside suspended Si nanowires. Electrical characteristics at 10 K show Coulomb diamonds with charging energy ∼27 meV, associated with a single dominant nanocrystal. Resonant tunnelling features with energy spacing ∼10 meV are observed, parallel to both diamond edges. These may be associated either with excited states or hole-acoustic phonon interactions, in the nanocrystal. In the latter case, the energy spacing corresponds well with reported Raman spectroscopy results and phonon spectra calculations.

Idioma original	Anglès
Revista	Applied Physics Letters
Volum	107
Número	22
DOIs	https://doi.org/10.1063/1.4936757
Estat de la publicació	Publicada - 2015

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10.1063/1.4936757

https://ddd.uab.cat/record/200186

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title = "Resonant tunnelling features in a suspended silicon nanowire single-hole transistor",

abstract = "Suspended silicon nanowires have significant potential for a broad spectrum of device applications. A suspended p-type Si nanowire incorporating Si nanocrystal quantum dots has been used to form a single-hole transistor. Transistor fabrication uses a novel and rapid process, based on focused gallium ion beam exposure and anisotropic wet etching, generating <10 nm nanocrystals inside suspended Si nanowires. Electrical characteristics at 10 K show Coulomb diamonds with charging energy ∼27 meV, associated with a single dominant nanocrystal. Resonant tunnelling features with energy spacing ∼10 meV are observed, parallel to both diamond edges. These may be associated either with excited states or hole-acoustic phonon interactions, in the nanocrystal. In the latter case, the energy spacing corresponds well with reported Raman spectroscopy results and phonon spectra calculations.",

keywords = "Anisotropic wet etching, Charging energies, Coulomb diamonds, Device application, Electrical characteristic, Ion beam exposure, Silicon nanowires, Single hole transistors",

author = "{Llobet Sixto}, Jordi and Emiljana Krali and Chen Wang and {Arbiol i Cobos}, Jordi and Jones, {Mervyn E.} and {P{\'e}rez Murano}, Francesc and Durrani, {Zahid A. K.}",

year = "2015",

doi = "10.1063/1.4936757",

language = "English",

volume = "107",

journal = "Applied Physics Letters",

issn = "0003-6951",

publisher = "American Institute of Physics",

number = "22",

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TY - JOUR

T1 - Resonant tunnelling features in a suspended silicon nanowire single-hole transistor

AU - Llobet Sixto, Jordi

AU - Krali, Emiljana

AU - Wang, Chen

AU - Arbiol i Cobos, Jordi

AU - Jones, Mervyn E.

AU - Pérez Murano, Francesc

AU - Durrani, Zahid A. K.

PY - 2015

Y1 - 2015

N2 - Suspended silicon nanowires have significant potential for a broad spectrum of device applications. A suspended p-type Si nanowire incorporating Si nanocrystal quantum dots has been used to form a single-hole transistor. Transistor fabrication uses a novel and rapid process, based on focused gallium ion beam exposure and anisotropic wet etching, generating <10 nm nanocrystals inside suspended Si nanowires. Electrical characteristics at 10 K show Coulomb diamonds with charging energy ∼27 meV, associated with a single dominant nanocrystal. Resonant tunnelling features with energy spacing ∼10 meV are observed, parallel to both diamond edges. These may be associated either with excited states or hole-acoustic phonon interactions, in the nanocrystal. In the latter case, the energy spacing corresponds well with reported Raman spectroscopy results and phonon spectra calculations.

AB - Suspended silicon nanowires have significant potential for a broad spectrum of device applications. A suspended p-type Si nanowire incorporating Si nanocrystal quantum dots has been used to form a single-hole transistor. Transistor fabrication uses a novel and rapid process, based on focused gallium ion beam exposure and anisotropic wet etching, generating <10 nm nanocrystals inside suspended Si nanowires. Electrical characteristics at 10 K show Coulomb diamonds with charging energy ∼27 meV, associated with a single dominant nanocrystal. Resonant tunnelling features with energy spacing ∼10 meV are observed, parallel to both diamond edges. These may be associated either with excited states or hole-acoustic phonon interactions, in the nanocrystal. In the latter case, the energy spacing corresponds well with reported Raman spectroscopy results and phonon spectra calculations.

KW - Anisotropic wet etching

KW - Charging energies

KW - Coulomb diamonds

KW - Device application

KW - Electrical characteristic

KW - Ion beam exposure

KW - Silicon nanowires

KW - Single hole transistors

U2 - 10.1063/1.4936757

DO - 10.1063/1.4936757

M3 - Article

SN - 0003-6951

VL - 107

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 22

ER -

Resonant tunnelling features in a suspended silicon nanowire single-hole transistor

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