IR absorption spectroscopy of deposition process of amorphous carbon film due to ethylene plasma

Masanori Shinohara; Taisuke Tominaga; Hayato Shimomura; Takeshi Ihara; Yoshihito Yagyu; Tamiko Ohshima; Hiroharu Kawasaki

doi:10.1541/ieejfms.138.544

IR absorption spectroscopy of deposition process of amorphous carbon film due to ethylene plasma

Masanori Shinohara, Taisuke Tominaga, Hayato Shimomura, Takeshi Ihara, Yoshihito Yagyu, Tamiko Ohshima, Hiroharu Kawasaki

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

抄録

Changes in chemical states of amorphous carbon film during ethylene (C₂H₄) plasma in the floating potential were investigated with multiple-internal-reflection infrared absorption spectroscopy (MIR-IRAS) and deposition rates. IRAS spectra showed the peaks due to the sp³-CH_X were observed, but no peaks due to sp²-CH_X were observed. The deposition rate due to ethylene plasma were nearly twice as much as that due to methane plasma, in the same way that the number of carbons in an ethylene molecule is twice as that in a methane molecule. It is suggested that the film growth due to ethylene plasma is the same manner of that due to methane plasma; the plasma-generated hydrocarbon species such as C₂H₃, C₂H₅, which are generated in ethylene plasma are adsorbed on dangling bonds which are generated by hydrogen abstraction from the deposited film surface. As a result, the deposited film is comprised of sp³-hydrocarbon components.

本文言語	英語
ページ（範囲）	544-550
ページ数	7
ジャーナル	IEEJ Transactions on Fundamentals and Materials
巻	138
号	11
DOI	https://doi.org/10.1541/ieejfms.138.544
出版ステータス	出版済み - 2018
外部発表	はい

!!!All Science Journal Classification (ASJC) codes

電子工学および電気工学

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10.1541/ieejfms.138.544

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@article{01b73e8bce314447aa696a9fcd5dfe9c,

title = "IR absorption spectroscopy of deposition process of amorphous carbon film due to ethylene plasma",

abstract = "Changes in chemical states of amorphous carbon film during ethylene (C2H4) plasma in the floating potential were investigated with multiple-internal-reflection infrared absorption spectroscopy (MIR-IRAS) and deposition rates. IRAS spectra showed the peaks due to the sp3-CHX were observed, but no peaks due to sp2-CHX were observed. The deposition rate due to ethylene plasma were nearly twice as much as that due to methane plasma, in the same way that the number of carbons in an ethylene molecule is twice as that in a methane molecule. It is suggested that the film growth due to ethylene plasma is the same manner of that due to methane plasma; the plasma-generated hydrocarbon species such as C2H3, C2H5, which are generated in ethylene plasma are adsorbed on dangling bonds which are generated by hydrogen abstraction from the deposited film surface. As a result, the deposited film is comprised of sp3-hydrocarbon components.",

author = "Masanori Shinohara and Taisuke Tominaga and Hayato Shimomura and Takeshi Ihara and Yoshihito Yagyu and Tamiko Ohshima and Hiroharu Kawasaki",

note = "Publisher Copyright: {\textcopyright} 2018 The Institute of Electrical Engineers of Japan.",

year = "2018",

doi = "10.1541/ieejfms.138.544",

language = "English",

volume = "138",

pages = "544--550",

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TY - JOUR

T1 - IR absorption spectroscopy of deposition process of amorphous carbon film due to ethylene plasma

AU - Shinohara, Masanori

AU - Tominaga, Taisuke

AU - Shimomura, Hayato

AU - Ihara, Takeshi

AU - Yagyu, Yoshihito

AU - Ohshima, Tamiko

AU - Kawasaki, Hiroharu

PY - 2018

Y1 - 2018

N2 - Changes in chemical states of amorphous carbon film during ethylene (C2H4) plasma in the floating potential were investigated with multiple-internal-reflection infrared absorption spectroscopy (MIR-IRAS) and deposition rates. IRAS spectra showed the peaks due to the sp3-CHX were observed, but no peaks due to sp2-CHX were observed. The deposition rate due to ethylene plasma were nearly twice as much as that due to methane plasma, in the same way that the number of carbons in an ethylene molecule is twice as that in a methane molecule. It is suggested that the film growth due to ethylene plasma is the same manner of that due to methane plasma; the plasma-generated hydrocarbon species such as C2H3, C2H5, which are generated in ethylene plasma are adsorbed on dangling bonds which are generated by hydrogen abstraction from the deposited film surface. As a result, the deposited film is comprised of sp3-hydrocarbon components.

AB - Changes in chemical states of amorphous carbon film during ethylene (C2H4) plasma in the floating potential were investigated with multiple-internal-reflection infrared absorption spectroscopy (MIR-IRAS) and deposition rates. IRAS spectra showed the peaks due to the sp3-CHX were observed, but no peaks due to sp2-CHX were observed. The deposition rate due to ethylene plasma were nearly twice as much as that due to methane plasma, in the same way that the number of carbons in an ethylene molecule is twice as that in a methane molecule. It is suggested that the film growth due to ethylene plasma is the same manner of that due to methane plasma; the plasma-generated hydrocarbon species such as C2H3, C2H5, which are generated in ethylene plasma are adsorbed on dangling bonds which are generated by hydrogen abstraction from the deposited film surface. As a result, the deposited film is comprised of sp3-hydrocarbon components.

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JF - IEEJ Transactions on Fundamentals and Materials

IS - 11

ER -

IR absorption spectroscopy of deposition process of amorphous carbon film due to ethylene plasma

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!!!All Science Journal Classification (ASJC) codes

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