Nanoscale doping of InAs via sulfur monolayers

Johnny C. Ho; Alexandra C. Ford; Yu Lun Chueh; Paul W. Leu; Onur Ergen; Kuniharu Takei; Gregory Smith; Prashant Majhi; Joseph Bennett; Ali Javey

doi:10.1063/1.3205113

Nanoscale doping of InAs via sulfur monolayers

Johnny C. Ho, Alexandra C. Ford, Yu Lun Chueh, Paul W. Leu, Onur Ergen, Kuniharu Takei, Gregory Smith, Prashant Majhi, Joseph Bennett, Ali Javey^*

^*Bu çalışma için yazışmadan sorumlu yazar

Araştırma sonucu: Dergiye katkı › Makale › bilirkişi

74 Atıf (Scopus)

Özet

One of the challenges for the nanoscale device fabrication of III-V semiconductors is controllable postdeposition doping techniques to create ultrashallow junctions. Here, we demonstrate nanoscale, sulfur doping of InAs planar substrates with high dopant areal dose and uniformity by using a self-limiting monolayer doping approach. From transmission electron microscopy and secondary ion mass spectrometry, a dopant profile abruptness of ∼3.5 nm /decade is observed without significant defect density. The n⁺/p ⁺ junctions fabricated by using this doping scheme exhibit negative differential resistance characteristics, further demonstrating the utility of this approach for device fabrication with high electrically active sulfur concentrations of ∼8× 10¹⁸ cm^-3.

Orijinal dil	İngilizce
Makale numarası	072108
Dergi	Applied Physics Letters
Hacim	95
Basın numarası	7
DOI'lar	https://doi.org/10.1063/1.3205113
Yayın durumu	Yayınlandı - 2009
Harici olarak yayınlandı	Evet

Finansman

This work was financially supported by NSF Grant No. 0826145, Intel Corporation, MARCO/MSD, SEMATECH, NSF COINS, and Berkeley Sensor and Actuator Center. J.C.H. acknowledges an Intel Graduate Fellowship.

Finansörler	Finansör numarası
Intel Graduate Fellowship
SEMATECH
National Science Foundation	0826145
Intel Corporation
Meso Scale Diagnostics
Microelectronics Advanced Research Corporation

Belgeye Erişim

10.1063/1.3205113

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Link to publication in Scopus

Alıntı Yap

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abstract = "One of the challenges for the nanoscale device fabrication of III-V semiconductors is controllable postdeposition doping techniques to create ultrashallow junctions. Here, we demonstrate nanoscale, sulfur doping of InAs planar substrates with high dopant areal dose and uniformity by using a self-limiting monolayer doping approach. From transmission electron microscopy and secondary ion mass spectrometry, a dopant profile abruptness of ∼3.5 nm /decade is observed without significant defect density. The n+/p + junctions fabricated by using this doping scheme exhibit negative differential resistance characteristics, further demonstrating the utility of this approach for device fabrication with high electrically active sulfur concentrations of ∼8× 1018 cm-3.",

author = "Ho, {Johnny C.} and Ford, {Alexandra C.} and Chueh, {Yu Lun} and Leu, {Paul W.} and Onur Ergen and Kuniharu Takei and Gregory Smith and Prashant Majhi and Joseph Bennett and Ali Javey",

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doi = "10.1063/1.3205113",

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AU - Ho, Johnny C.

AU - Ford, Alexandra C.

AU - Chueh, Yu Lun

AU - Leu, Paul W.

AU - Ergen, Onur

AU - Takei, Kuniharu

AU - Smith, Gregory

AU - Majhi, Prashant

AU - Bennett, Joseph

AU - Javey, Ali

PY - 2009

Y1 - 2009

N2 - One of the challenges for the nanoscale device fabrication of III-V semiconductors is controllable postdeposition doping techniques to create ultrashallow junctions. Here, we demonstrate nanoscale, sulfur doping of InAs planar substrates with high dopant areal dose and uniformity by using a self-limiting monolayer doping approach. From transmission electron microscopy and secondary ion mass spectrometry, a dopant profile abruptness of ∼3.5 nm /decade is observed without significant defect density. The n+/p + junctions fabricated by using this doping scheme exhibit negative differential resistance characteristics, further demonstrating the utility of this approach for device fabrication with high electrically active sulfur concentrations of ∼8× 1018 cm-3.

AB - One of the challenges for the nanoscale device fabrication of III-V semiconductors is controllable postdeposition doping techniques to create ultrashallow junctions. Here, we demonstrate nanoscale, sulfur doping of InAs planar substrates with high dopant areal dose and uniformity by using a self-limiting monolayer doping approach. From transmission electron microscopy and secondary ion mass spectrometry, a dopant profile abruptness of ∼3.5 nm /decade is observed without significant defect density. The n+/p + junctions fabricated by using this doping scheme exhibit negative differential resistance characteristics, further demonstrating the utility of this approach for device fabrication with high electrically active sulfur concentrations of ∼8× 1018 cm-3.

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U2 - 10.1063/1.3205113

DO - 10.1063/1.3205113

M3 - Article

AN - SCOPUS:69249170062

SN - 0003-6951

VL - 95

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 7

M1 - 072108

ER -

Nanoscale doping of InAs via sulfur monolayers

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