The deposition behavior of SiC

H films deposited using a remote PECVD system with an HMDS precursor and C2H2 dilution gas

Hyuk Cho Sung, Jin Lee Young, Jin Choi Doo, Song Kim Tae

Research output: Contribution to journalArticle

1 Citation (Scopus)

Abstract

Silicon carbide (SiC) is a very attractive material in terms of its mechanical strength, chemical inertness, and other properties for applications in microsystems. SiC:H films were deposited on (100) silicon wafers by a remote plasma enhanced chemical vapor deposition (RPE-CVD) system in the temperature range of 300°C-450°C. Hexamethyldisilane (HMDS) and H2 gas were used as a precursor and a carrier gas, respectively. C2H 2 dilution gas was used in order to increase the carbon content in the films. The plasma power was varied from 200W to 300W. The stoichiometric and bonding properties of deposited films were investigated by an Fourier transform infrared (FITR) spectrometer and X-ray photoelectron spectroscopy (XPS). The thickness of deposited films was measured by ellipsometry. The growth rate of SiC:H films decreased with an increase of temperature from 300°C to 400°C, however, it increased again at 450°C. The growth rate of films increased with the plasma power for all deposition conditions. As the deposition temperature was increased, the sp3/(sp2+sp3) ratio increased from 0.32 to 0.64, which affected the growth behavior and properties of the films. A higher activation energy and lower potential energy of the sp3 reaction make the sp3 reaction dominant consuming more energy as the deposition temperature was increased. This caused a thickness decrease with an increase of deposition temperature.

Original languageEnglish
Pages (from-to)393-396
Number of pages4
JournalJournal of Ceramic Processing Research
Volume8
Issue number6
Publication statusPublished - 2007 Dec 1

Fingerprint

Plasma enhanced chemical vapor deposition
Silicon carbide
Dilution
Gases
Temperature
Plasmas
Infrared spectrometers
Microsystems
Ellipsometry
Potential energy
silicon carbide
hexamethyldisilane
Silicon wafers
Strength of materials
Fourier transforms
Carbon
X ray photoelectron spectroscopy
Activation energy

All Science Journal Classification (ASJC) codes

  • Ceramics and Composites

Cite this

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title = "The deposition behavior of SiC: H films deposited using a remote PECVD system with an HMDS precursor and C2H2 dilution gas",
abstract = "Silicon carbide (SiC) is a very attractive material in terms of its mechanical strength, chemical inertness, and other properties for applications in microsystems. SiC:H films were deposited on (100) silicon wafers by a remote plasma enhanced chemical vapor deposition (RPE-CVD) system in the temperature range of 300°C-450°C. Hexamethyldisilane (HMDS) and H2 gas were used as a precursor and a carrier gas, respectively. C2H 2 dilution gas was used in order to increase the carbon content in the films. The plasma power was varied from 200W to 300W. The stoichiometric and bonding properties of deposited films were investigated by an Fourier transform infrared (FITR) spectrometer and X-ray photoelectron spectroscopy (XPS). The thickness of deposited films was measured by ellipsometry. The growth rate of SiC:H films decreased with an increase of temperature from 300°C to 400°C, however, it increased again at 450°C. The growth rate of films increased with the plasma power for all deposition conditions. As the deposition temperature was increased, the sp3/(sp2+sp3) ratio increased from 0.32 to 0.64, which affected the growth behavior and properties of the films. A higher activation energy and lower potential energy of the sp3 reaction make the sp3 reaction dominant consuming more energy as the deposition temperature was increased. This caused a thickness decrease with an increase of deposition temperature.",
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The deposition behavior of SiC : H films deposited using a remote PECVD system with an HMDS precursor and C2H2 dilution gas. / Sung, Hyuk Cho; Young, Jin Lee; Doo, Jin Choi; Tae, Song Kim.

In: Journal of Ceramic Processing Research, Vol. 8, No. 6, 01.12.2007, p. 393-396.

Research output: Contribution to journalArticle

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