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

37 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}",

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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

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KW - gold chloride

KW - thermal treatment

KW - transistor

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

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Keywords

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