Thermal conversion of electronic and electrical properties of AuCl 3-doped single-walled carbon nanotubes

Seon Mi Yoon; Un Jeong Kim; Anass Benayad; Il Ha Lee; Hyungbin Son; Hyeon Jin Shin; Won Mook Choi; Young Hee Lee; Yong Wan Jin; Eun Hong Lee; Sang Yoon Lee; Jae Young Choi; Jong Min Kim

doi:10.1021/nn103055u

Thermal conversion of electronic and electrical properties of AuCl ₃-doped single-walled carbon nanotubes

Seon Mi Yoon
, Un Jeong Kim
, Anass Benayad
, Il Ha Lee
, Hyungbin Son
, Hyeon Jin Shin
, Won Mook Choi
, Young Hee Lee
, Yong Wan Jin
, Eun Hong Lee
, Sang Yoon Lee
, Jae Young Choi
, Jong Min Kim

Department of Physics

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

41 Scopus citations

Abstract

By using carbon-free inorganic atomic layer involving heat treatment from 150 to 300 °C, environmentally stable and permanent modulation of the electronic and electrical properties of single-walled carbon nanotubes (SWCNTs) from p-type to ambi-polar and possibly to n-type has been demonstrated. At low heat treatment temperature, a strong p-doping effect from Au³⁺ ions to CNTs due to a large difference in reduction potential between them is dominant. However at higher temperature, the gold species are thermally reduced, and thermally induced CNT-Cl finally occurs by the decomposition reaction of AuCl₃. Thus, in the AuCl₃-doped SWCNTs treated at higher temperature, the p-type doping effect is suppressed and an n-type property from CNT-Cl is thermally induced. Thermal conversion of the majority carrier type of AuCl₃-doped SWNTs is systematically investigated by combining various optical and electrical tools.

Original language	English
Pages (from-to)	1353-1359
Number of pages	7
Journal	ACS Nano
Volume	5
Issue number	2
DOIs	https://doi.org/10.1021/nn103055u
State	Published - 22 Feb 2011

Keywords

carbon nanotubes
doping
gold chloride
thermal treatment
transistor

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10.1021/nn103055u

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title = "Thermal conversion of electronic and electrical properties of AuCl 3-doped single-walled carbon nanotubes",

abstract = "By using carbon-free inorganic atomic layer involving heat treatment from 150 to 300 °C, environmentally stable and permanent modulation of the electronic and electrical properties of single-walled carbon nanotubes (SWCNTs) from p-type to ambi-polar and possibly to n-type has been demonstrated. At low heat treatment temperature, a strong p-doping effect from Au3+ ions to CNTs due to a large difference in reduction potential between them is dominant. However at higher temperature, the gold species are thermally reduced, and thermally induced CNT-Cl finally occurs by the decomposition reaction of AuCl3. Thus, in the AuCl3-doped SWCNTs treated at higher temperature, the p-type doping effect is suppressed and an n-type property from CNT-Cl is thermally induced. Thermal conversion of the majority carrier type of AuCl3-doped SWNTs is systematically investigated by combining various optical and electrical tools.",

keywords = "carbon nanotubes, doping, gold chloride, thermal treatment, transistor",

author = "Yoon, \{Seon Mi\} and Kim, \{Un Jeong\} and Anass Benayad and Lee, \{Il Ha\} and Hyungbin Son and Shin, \{Hyeon Jin\} and Choi, \{Won Mook\} and Lee, \{Young Hee\} and Jin, \{Yong Wan\} and Lee, \{Eun Hong\} and Lee, \{Sang Yoon\} and Choi, \{Jae Young\} and Kim, \{Jong Min\}",

year = "2011",

month = feb,

day = "22",

doi = "10.1021/nn103055u",

language = "English",

volume = "5",

pages = "1353--1359",

journal = "ACS Nano",

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TY - JOUR

T1 - Thermal conversion of electronic and electrical properties of AuCl 3-doped single-walled carbon nanotubes

AU - Yoon, Seon Mi

AU - Kim, Un Jeong

AU - Benayad, Anass

AU - Lee, Il Ha

AU - Son, Hyungbin

AU - Shin, Hyeon Jin

AU - Choi, Won Mook

AU - Lee, Young Hee

AU - Jin, Yong Wan

AU - Lee, Eun Hong

AU - Lee, Sang Yoon

AU - Choi, Jae Young

AU - Kim, Jong Min

PY - 2011/2/22

Y1 - 2011/2/22

N2 - By using carbon-free inorganic atomic layer involving heat treatment from 150 to 300 °C, environmentally stable and permanent modulation of the electronic and electrical properties of single-walled carbon nanotubes (SWCNTs) from p-type to ambi-polar and possibly to n-type has been demonstrated. At low heat treatment temperature, a strong p-doping effect from Au3+ ions to CNTs due to a large difference in reduction potential between them is dominant. However at higher temperature, the gold species are thermally reduced, and thermally induced CNT-Cl finally occurs by the decomposition reaction of AuCl3. Thus, in the AuCl3-doped SWCNTs treated at higher temperature, the p-type doping effect is suppressed and an n-type property from CNT-Cl is thermally induced. Thermal conversion of the majority carrier type of AuCl3-doped SWNTs is systematically investigated by combining various optical and electrical tools.

AB - By using carbon-free inorganic atomic layer involving heat treatment from 150 to 300 °C, environmentally stable and permanent modulation of the electronic and electrical properties of single-walled carbon nanotubes (SWCNTs) from p-type to ambi-polar and possibly to n-type has been demonstrated. At low heat treatment temperature, a strong p-doping effect from Au3+ ions to CNTs due to a large difference in reduction potential between them is dominant. However at higher temperature, the gold species are thermally reduced, and thermally induced CNT-Cl finally occurs by the decomposition reaction of AuCl3. Thus, in the AuCl3-doped SWCNTs treated at higher temperature, the p-type doping effect is suppressed and an n-type property from CNT-Cl is thermally induced. Thermal conversion of the majority carrier type of AuCl3-doped SWNTs is systematically investigated by combining various optical and electrical tools.

KW - carbon nanotubes

KW - doping

KW - gold chloride

KW - thermal treatment

KW - transistor

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U2 - 10.1021/nn103055u

DO - 10.1021/nn103055u

M3 - Article

AN - SCOPUS:79951929070

SN - 1936-0851

VL - 5

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EP - 1359

JO - ACS Nano

JF - ACS Nano

IS - 2

ER -

Thermal conversion of electronic and electrical properties of AuCl ₃-doped single-walled carbon nanotubes

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Keywords

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