全研究業績です。頑張っているつもりです。概説はこちらへどうぞ。
Google Scholarのプロフィールページはこちらです。
目次 (※論文著者一覧中の*印は、責任著者(corresponding author)を指します。慣例に従って、新しいものから遡っています。)
・原著論文
・国際会議プロシーディング
・解説
・特許
・著書
・学位および学位論文
原著論文
30. Ryuta Tsukazaki, Haruhiro Naito, Hisashi Koga, Akito Fukuda, Naoki Kato, Takayuki Watanabe, Susumu Takabayashi*, “Plasma confinement by an optoelectronic system”, Journal of Vacuum Science & Technology B, AVS, 42, 034201 (11 pages) (2024).
29. Hiroyuki Fukue, Tatsuyuki Nakatani*, Susumu Takabayashi, Tadayuki Okano, Masahide Kuroiwa, Shinsuke Kunitsugu, Hiroki Oota, Ken Yonezawa, “Raman spectroscopy analysis of the chemical structure of diamond-like carbon films deposited via high-frequency inclusion high-power impulse magnetron sputtering”, Diamond and Related Materials, Elsevier, 142, 110768 (8 pages) (2024).
28. Sung Hwa Hwang, Kazunori Koga*, Yuan Hao, Pankaj Attri, Takamasa Okumura, Kunihiro Kamataki, Naho Itagaki, Masaharu Shiratani, Jun-Seok Oh, Susumu Takabayashi, Tatsuyuki Nakatani, “Time of Flight Size Control of Carbon Nanoparticles Using Ar+CH4 Multi-Hollow Discharge Plasma Chemical Vapor Deposition Method”, Processes, MDPI, 9, 2 (10 pages) (2021).
27. Susumu Takabayashi*, Keishi Okamoto, Tatsuyuki Nakatani, “Influence of post-annealing on a diamondlike carbon film analyzed by Raman spectroscopy”, Surface and Interface Analysis, Wiley, 50, 441–447 (2018).
26. Susumu Takabayashi*, Hiroyuki Hayashi, Meng Yang, Rintaro Sugimoto, Shuichi Ogawa, Yuji Takakuwa, “Chemical structure and electrical characteristics of diamondlike carbon films”, Diamond and Related Materials, Elsevier, 81, 16–26 (2018).
25. Susumu Takabayashi*, Radek Ješko, Masanori Shinohara, Hiroyuki Hayashi, Rintaro Sugimoto, Shuichi Ogawa, Yuji Takakuwa, “Chemical structural analysis of diamondlike carbon films: II. Raman analysis”, Surface Science, Elsevier, 668, 36–41 (2018).
24. Susumu Takabayashi*, Radek Ješko, Masanori Shinohara, Hiroyuki Hayashi, Rintaro Sugimoto, Shuichi Ogawa, Yuji Takakuwa, “Chemical structural analysis of diamondlike carbon films: I. Surface growth model”, Surface Science, Elsevier, 668, 29–35 (2018).
23. Susumu Takabayashi*, Keishi Okamoto, Yuji Takakuwa, Tatsuyuki Nakatani, “Dependence of the features of diamondlike carbon films on their synthesis methods, as analyzed by Raman spectroscopy”, Surface and Coatings Technology, Elsevier, 330, 26–33 (2017).
22. Masanori Shinohara*, Naoki Maruno, Yoshiki Takami, Susumu Takabayashi, Yoshinobu Matsuda, “Infrared Spectroscopic Study of Hydrogenation Process of Si(100) Surface During Hydrogen Plasma Exposure”, IEEE Transactions on Plasma Science, IEEE, 44, 3107–3111 (2017).
21. Susumu Takabayashi* and Takayuki Takahagi, “Surface oxidation process of a diamond-like carbon film analyzed by difference X-ray photoelectron spectroscopy”, Surface and Interface Analysis, Wiley, 47, 345–349 (2015).
20. Susumu Takabayashi*, Meng Yang, Takanori Eto, Hiroyuki Hayashi, Shuichi Ogawa, Taiichi Otsuji, Yuji Takakuwa, “Controlled oxygen-doped diamond-like carbon film synthesized by photoemission-assisted plasma”, Diamond and Related Materials, Elsevier, 53, 11–17 (2015).
19. Susumu Takabayashi*, Meng Yang, Shuichi Ogawa, Hiroyuki Hayashi, Radek Ješko, Taiichi Otsuji, and Yuji Takakuwa, “Relationship between the structure and electrical characteristics of diamond-like carbon films”, Journal of Applied Physics, American Institute of Physics, 116, 093507 (11 pages) (2014).
18. Meng Yang, Susumu Takabayashi*, Shuichi Ogawa, Hiroyuki Hayashi, Radek Ješko, Taiichi Otsuji, and Yuji Takakuwa, “Formation of Diamond-Like Carbon Films by Photoemission-Assisted Plasma-Enhanced Chemical Vapor Deposition”, Japanese Journal of Applied Physics, Institute of Pure and Applied Physics, 52, 110123 (11 pages) (2013).
17. Masanori Shinohara*, Yoshiki Takami, Susumu Takabayashi, Akinori Oda, Yoshinobu Matsuda, and Hiroshi Fujiyama, “Evolution of Hydride Components Generated by Hydrogen Plasma Irradiation of a Si(110) Surface Investigated With In Situ Infrared Absorption Spectroscopy in Multiple Internal Reflection Geometry”, IEEE Transactions on Plasma Science, IEEE, 41, 1878–1883 (2013).
16. Meng Yang, Shuichi Ogawa*, Susumu Takabayashi, Taiichi Otsuji, and Yuji Takakuwa, “Synthesis of diamond-like carbon films on Si substrates by photoemission-assisted plasma-enhanced chemical vapor deposition”, Thin Solid Films, Elsevier, 523, 25–28 (2012).
15. Susumu Takabayashi*, Shuichi Ogawa, Yuji Takakuwa, Hyun-Chul Kang, Ryota Takahashi, Hirokazu Fukidome, Maki Suemitsu, Tetsuya Suemitsu, and Taiichi Otsuji, “Carbonaceous field effect transistor with graphene and diamondlike carbon”, Diamond and Related Materials, Elsevier, 22, 118–123 (2012).
14. Susumu Takabayashi*, Keishi Okamoto, Hiroaki Motoyama, Tatsuyuki Nakatani, Hiroyuki Sakaue, and Takayuki Takahagi, “X-ray photoelectron analysis of surface functional groups on diamond-like carbon films by gas-phase chemical derivatization method”, Surface and Interface Analysis, Wiley, 42, 77–87 (2010).
13. Susumu Takabayashi*, Keishi Okamoto, Tatsuyuki Nakatani, Hiroyuki Sakaue, and Takayuki Takahagi, “Surface Analysis of Carbon-Hydrogen Bonds in Diamondlike Carbon Films by X-ray Photoelectron Spectroscopy”, Japanese Journal of Applied Physics, Institute of Pure and Applied Physics, 48, 092304 (5 pages) (2009).
12. Keishi Okamoto*, Tatsuyuki Nakatani, Shuzou Yamashita, Susumu Takabayashi, Takayuki Takahagi, “Development of surface-functionalized drug-eluting stent with diamond-like carbon nanocoated by using PECVD method”, Surface and Coatings Technology, Elsevier, 202, 5750–5752 (2008).
11. Susumu Takabayashi*, Keishi Okamoto, Hiroyuki Sakaue, Takayuki Takahagi, Kenya Shimada, Tatsuyuki Nakatani, “Annealing effect on the chemical structure of diamondlike carbon”, Journal of Applied Physics, American Institute of Physics, 104, 043512 (6 pages) (2008).
10. Susumu Takabayashi*, Keishi Okamoto, Kenya Shimada, Kunihiko Motomitsu, Hiroaki Motoyama, Tatsuyuki Nakatani, Hiroyuki Sakaue, Hitoshi Suzuki, Takayuki Takahagi, “Chemical Structural Analysis of Diamondlike Carbon Films with Different Electrical Resistivities by X-ray Photoelectron Spectroscopy”, Japanese Journal of Applied Physics, Institute of Pure and Applied Physics, 47, 3376–3379 (2008).
9. Susumu Takabayashi*, Keishi Okamoto, Kunihiko Motomitsu, Akira Terayama, Tatsuyuki Nakatani, Hiroyuki Sakaue, Hitoshi Suzuki, Takayuki Takahagi, “New method to calibrate binding energy using Au nanocolloids in X-ray photoelectron analysis of diamondlike carbon films with different electrical resistivities”, Applied Surface Science, Elsevier, 254, 2666–2670 (2008).
8. Susumu Takabayashi*, Kunihiko Motomitsu, Takayuki Takahagi, Akira Terayama, Keishi Okamoto, Tatsuyuki Nakatani, “Qualitative analysis of a diamondlike carbon film by angle–resolved x-ray photoelectron spectroscopy”, Journal of Applied Physics, American Institute of Physics, 101, 103542 (6 pages) (2007).
7. Masato Ohashi, Susumu Takabayashi, Kazushi Mashima*, Yoshihiro Nakato, “Modification of the n-Si(111) surface with alkyl chains having the terminal C=C double bond”, Chemistry Letters, Chemical Society of Japan, 35, 956–957 (2006).
6. Susumu Takabayashi, Naoaki Kato, Yoshihiro Nakato*, “Negative Shifts in the Flat-band Potential by Adsorption of Iodide Ions on Pt Nano-dotted and Surface-alkylated n-Si (111) Electrodes for Improvement of Solar Cell Characteristics”, Journal of The Electrochemical Society, The Electrochemical Society, 153, E38–E43 (2006).
5. Susumu Takabayashi, Akihito Imanishi, Yohsihiro Nakato*, “Efficient solar to chemical conversion by a new-type n-Si electrode with metal nano-contact and surface methylation”, Comptes Rendus Chimie, Elsevier, 9, 275–281 (2006).
4. Susumu Takabayashi, Masato Ohashi, Kazushi Mashima, Yang Liu, Shoko Yamazaki, Yoshihiro Nakato*, “Surface Structures, Photovoltages, and Stability of n-Si (111) Electrodes Surface-Modified with Metal Nano-Dots and Various Organic Groups”, Langmuir, American Chemical Society, 21, 8832–8838 (2005).
3. Susumu Takabayashi, Ryuhei Nakamura, Yoshihiro Nakato*, “A Nano-Modified Si/TiO2 Composite Electrode for Efficient Solar Water Splitting”, Journal of Photochemistry and Photobiology A: Chemistry, Elsevier, 166, 107–113 (2004).
2. Keisuke Nakato, Susumu Takabayashi, Akihito Imanishi, Kei Murakoshi, Yoshihiro Nakato*, “Stabilization of n-Si electrodes by Surface Alkylation and Metal Nano-Dot Coating for Use in Efficient Photoelectrochemical Solar Cells”, Solar Energy Materials and Solar Cells, Elsevier, 83, 323–330 (2004).
1. Tsukasa Torimoto*, Susumu Takabayashi, Hirotaro Mori, Susumu Kuwabata, “Photoelectrochemical Activities of Ultrathin Lead Sulfide Films Prepared by Electrochemical Atomic Layer Epitaxy”, Journal of Electroanaytical Chemistry, Elsevier, 522, 33–39 (2002).
国際会議プロシーディング
3. Susumu Takabayashi*, Meng Yang, Shuichi Ogawa, Yuji Takakuwa, Tetsuya Suemitsu, Taiichi Otsuji, “Dielectric-tuned Diamondlike Carbon Materials for an Ultrahigh-speed Self-aligned Graphene Channel Field Effect Transistor”, Advances in Science and Technology, Trans Tech Publications, 77, 270–275 (2012). (Proceeding of “4th. Internationals Conferences on Modern Materials and Technologies (CIMTEC2012)”)
2. Susumu Takabayashi*, Meng Yang, Shuichi Ogawa, Yuji Takakuwa, Tetsuya Suemitsu, Taiichi Otsuji, “Dielectric-tuned Diamondlike Carbon Materials for High-performance Self-aligned Graphene-channel Field Effect Transistors”, MRS Proceedings, Materials Research Society, 1451, 185–190 (2012). (Proceeding of “2012 Materials Research Society (MRS) Spring Meeting”)
1. Yasuhiro Nanjo, Ryuhei Nakamura, Susumu Takabayashi, Yoshihiro Nakato*, “Surface alkylated and metal nano-dotted n-Si electrodes for efficient and low-cost solar energy conversion”, Proceedings of SPIE, SPIE, 5938, 59380G (6 pages) (2005).
解説
5. 鷹林 将, “DLCの構造を理解する”, 日本医用DLC研究会ホームページ, 2021年3月24日.
4. 鷹林 将*, 高桑 雄二, “ダイヤモンドライクカーボンの成長機構解析と制御成膜”, 炭素, 炭素材料学会, 293, 80-91 (2020).
3. 鷹林 将*, 高桑 雄二, “ラマン分光法によるダイヤモンドライクカーボンの化学構造解析”, 炭素, 炭素材料学会, 286, 14–25 (2019).
2. 鷹林 将*, 高萩 隆行, “X線光電子分光法によるダイヤモンドライクカーボン薄膜の表面化学構造解析”, Journal of Surface Analysis, 表面分析研究会, 20, 25–54 (2013).
1. 鷹林 将*, 岡本 圭司, 中谷 達行, 坂上 弘之, 高萩 隆行, “X線光電子分光法を用いたダイヤモンドライクカーボンの化学構造解析”, 炭素, 炭素材料学会, 235, 280–289 (2008). (※ 2009年度炭素材料学会論文賞受賞)
特許
6. 鷹林 将, 塚嵜 琉太, 古賀 永, 加藤 直樹, 渡辺 貴之, “放電プラズマの制御方法”, 特願2023-142496, 出願日 2023年9月1日.
5. 鷹林 将, 中谷 達行, 岡本 圭司, “炭素材料の評価方法”, 特許第6776145号, 出願日 2017年2月17日.
4. 鷹林 将, 尾辻 泰一, 高桑 雄二, 小川 修一, 楊 猛, “グラフェン電界効果トランジスタおよびグラフェン半導体部材”, 特願2012–031899, 出願日 2012年2月16日.
3. 鷹林 将, 高萩 隆行, 島田 賢也, 岡本 圭司, 中谷 達行, “官能基の測定方法”, 特許5531310号, 出願日 2009年9月25日.
2. 鷹林 将, 高萩 隆行, 島田 賢也, 岡本 圭司, 中谷 達行, “ダイヤモンド様薄膜の評価方法”, 特許第5194655号, 出願日 2007年9月4日.
1. 鷹林 将, 高萩 隆行, 岡本 圭司, 中谷 達行, “ダイヤモンド様薄膜の評価方法,評価装置及び評価用プログラム”, 特許5099824号, 出願日 2007年9月4日.
著書(分担執筆)
5. 鷹林 将, “ラマン分光法によるダイヤモンドライクカーボンの化学構造解析”, ラマン分光スペクトルデータ解析事例集, 技術情報協会, 271–279 (2022).
4. 鷹林 将, 高桑 雄二, “アモルファス炭素の化学構造解析”, セラミックデータブック 2019/20, 工業製品技術協会, 76–81 (2019).
3. 鷹林 将, “DLCの電気特性と化学構造との関係”, DLCの基礎と応用展開, シーエムシー出版, 175–181 (2016).
2. 中谷 達行, 鷹林 将, “金微粒子を用いたX線光電子スペクトルの結合エネルギー較正”, 粉体・微粒子分析 テクニック事例集, 技術情報協会, 110–111 (2015).
1. 中谷 達行, 鷹林 将, “金微粒子のX線光電子スペクトル測定による一般的性質”, 粉体・微粒子分析 テクニック事例集, 技術情報協会, 108–109 (2015).
学位および学位論文
- 博士号
- 2005年3月 大阪大学 大学院基礎工学研究科 化学系専攻 博士後期課程 修了ならびに学位取得
- 所属研究室: 機能物質化学領域 (指導教官: 中戸 義禮 教授)
- 博士学位論文題名: 金属ナノ粒子を担持し、アルキル基で終端したn型シリコン電極を用いた光電気化学的太陽エネルギー変換
- 学位番号: 大阪大学 博士(工学) 第19581号
- 修士号
- 2002年3月 大阪大学 大学院工学研究科 物質化学専攻 博士前期課程 修了ならびに学位取得
- 所属研究室: 応用電気化学領域 (指導教官: 桑畑 進 助教授)
- 修士学位論文題名: 熱酸化により調製したCu2O膜被覆Cu板電極の電気化学および光電気化学特性
- 学位番号: 大阪大学 修士(工学) 工第16538号
- 学士号
- 2000年3月 大阪大学 工学部 応用自然科学科 応用化学コース 卒業ならびに学位取得
- 所属研究室: 応用電気化学領域 (指導教官: 桑畑 進 助教授)
- 学士学位論文題名: 電気化学エピタキシーを用いたPbS薄膜の作製と光電気化学特性
- 学位番号: 大阪大学 学士(工学) 工第30649号
