学術論文
 Publications

  1. "Atomic-scale view of the photoinduced structural transition to form sp3-like bonded order phase in graphite",
    Eiichi Inami, Keita Nishioka, and Jun'ichi Kanasaki,
    Scientific Reports, vol.13 (2023) pp.21439:1-9,
    Published 15 December (Springer Nature),
    DOI:10.1038/s41598-023-47389-x.
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  2. "超音速酸素分子線を用いたアナターゼ型TiO2(001)表面の酸素欠損の修復",
    勝部 大樹, 大野 真也, 稲見 栄一, 吉越 章隆, 阿部 真之,
    表面と真空 vol. 65 (2022) pp.526-530,
    Published 10 November 2022 (日本表面真空学会),
    DOI:10.1380/vss.65.526.

  3. "表面機能コア解析のための装置開発と応用",
    阿部 真之, 勝部 大樹, 山下 隼人, 稲見 栄一, Custance Oscar,
    まてりあ, vol. 61 (2022) pp.645-650,
    特集「結晶欠陥に形成される「機能コア」研究の最前線」
    Published 1 October 2022 (日本金属学会),
    DOI:10.2320/materia.61.645.

  4. "Oxidation of anatase TiO2(001) surface using supersonic seeded oxygen molecular beam",
    Daiki Katsube, Shinya Ohno, Shuhei Takayanagi, Shoki Ojima, Motoyasu Maeda, Naoki Origuchi, Arata Ogawa, Natsuki Ikeda, Yoshihide Aoyagi, Yuito Kabutoya, Kim Kyungmin, Hou Linfeng, Li Fengxuan, Yasutaka Tsuda, Hikaru Yoshida, Shizuka Nishi, Tetsuya Sakamoto, Eiichi Inami, Akitaka Yoshigoe, and Masayuki Abe,
    Langmuir, vol.37 (2021) pp.12313-12317,
    Published 26 October 2021 (American Chemical Society),
    DOI:10.1021/acs.langmuir.1c01752.
    [Supplementary Cover] ※日本語による解説は 高知工科大学HP(NEWS & TOPICS 欄)で見れます

  5. "Atomic-resolution imaging of rutile TiO2(110)-(1×2) reconstructed surface by non-contact atomic force microscopy",
    Daiki Katsube, Shoki Ojima, Eiichi Inami, and Masayuki Abe,
    Beilstein Journal of Nanotechnology, vol.11 (2020) pp.443-449,
    Published 10 March 2020 (Beilstein Institute for the Advancement of Chemical Sciences),
    DOI:10.3762/bjnano.11.35.

  6. "Direct imaging of precursor adcomplex states during cryogenic-temperature on-surface metalation: scanning tunneling microscopy study on porphyrin array with Fe adsorption at 78.5 K",
    Eiichi Inami, Masataka Yamaguchi, Ryohei Nemoto, Hideki Yorimitsu, Peter Krüger, and Toyo Kazu Yamada,
    Journal of Physical Chemistry C, vol.124 (2020) pp.3621-3631,
    Published 23 January 2020 (American Chemical Society),
    DOI:10.1021/acs.jpcc.9b09795.

  7. "Fabrication of tungsten tip probes within 3 s by using flame etching",
    Takayuki Yamaguchi, Eiichi Inami, Yuto Goto, Yuta Sakai, Satoru Sasaki, Teruaki Ohno, and Toyo Kazu Yamada,
    Review of Scientific Instruments, vol.90 (2019) pp.063701:1-8,
    Published 12 June 2019 (American Institute of Physics),
    DOI:10.1063/1.5085251.

  8. "Sol-gel processed niobium oxide thin-film for a scaffold layer in perovskite solar cells",
    Eiichi Inami, Takamasa Ishigaki, and Hironori Ogata,
    Thin Solid Films, vol.674 (2019) pp.7-11,
    Published 29 January 2019 (Elsevier),
    DOI:10.1016/j.tsf.2019.01.043.
    [Advances in Engineering] ※日本語による解説は 高知工科大学HP(NEWS & TOPICS 欄)で見れます

  9. "Controlled deposition number of organic molecules using quartz crystal microbalance evaluated by scanning tunneling microscopy single-molecule-counting",
    Eiichi Inami, Masataka Yamaguchi, Takayuki Yamaguchi, Mikio Shimasaki, and Toyo Kazu Yamada,
    Analytical Chemistry, vol.90 (2018) pp.8954-8959,
    Published 27 June 2018 (American Chemical Society),
    DOI:10.1021/acs.analchem.8b01118.

  10. "Room temperature stable film formation of π-conjugated organic molecules on 3d magnetic substrate",
    Eiichi Inami, Mikio Shimasaki, Hideki Yorimitsu, and Toyo Kazu Yamada,
    Scientific Reports, vol.8 (2018) pp.353:1-12,
    Published 10 January 2018 (Springer Nature),
    DOI:10.1038/s41598-017-18605-2.
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  11. "Investigation of atomic species in Pt-induced nanowires on Ge(001) surface by combined atomic force and scanning tunneling microscopy",
    Eiichi Inami, Yoshiaki Sugimoto, Takuya Shinozaki, Oguzhan Gurlu, and Ayhan Yurtsever,
    Physical Review B, vol.96 (2017) pp.155415:1-7,
    Published 6 October 2017 (American Physical Society),
    DOI:10.1103/PhysRevB.96.155415.

  12. "Straight Imaging and mechanism behind grain boundary electron emission in Pt-doped ultrananocrystalline diamond films",
    Kalpataru Panda, Eiichi Inami, Yoshiaki Sugimoto, Kamatchi J. Sankaran, and I-Nan Lin,
    Carbon, vol.111 (2017) pp.8-17,
    Published 26 September (Elsevier),
    DOI:10.1016/j.carbon.2016.09.062.

  13. "Combined atomic force microscopy and voltage pulse technique to accurately measure the electrostatic force",
    Eiichi Inami and Yoshiaki Sugimoto,
    Japanese Journal of Applied Physics, vol.55 (2016) pp.08NB05:1-8,
    Published 1 July 2016 (Japan Society of Applied Physics),
    DOI:10.7567/JJAP.55.08NB05.

  14. "Accurate extraction of electrostatic force by a voltage-pulse force spectroscopy",
    Eiichi Inami and Yoshiaki Sugimoto,
    Physical Review Letters, vol.114 (2015) pp.246102:1-5,
    Published 19 June 2015 (American Physical Society),
    DOI:10.1103/PhysRevLett.114.246102.
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  15. "Room-temperature concerted switch made of a binary atom cluster",
    Eiichi Inami, Ikutaro Hamada, Keiichi Ueda, Masayuki Abe, Seizo Morita, and Yoshiaki Sugimoto,
    Nature Communications, vol.6 (2015) pp.6231:1-7,
    Published 06 February 2015 (Springer Nature),
    DOI:10.1038/ncomms7231.
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  16. "Direct observation and mechanism for enhanced field emission sites in platinum ion implanted/post-annealed ultrananocrystalline diamond films",
    Kalpataru Panda, Kamatchi J. Sankaran, Eiichi Inami, Yoshiaki Sugimoto, Nyan Hwa Tai, and I-Nan Lin,
    Applied Physics Letters, vol.105 (2014) pp.163109:1-5,
    Published 24 October 2014 (American Institute of Physics),
    DOI:10.1063/1.4898571.

  17. "Crucial roles of holes in electronic bond rupture on semiconductor surfaces",
    Junji Tsuruta, Eiichi Inami, Jun'ichi Kanasaki, and Katsumi Tanimura,
    Surface Science, vol.626 (2014) pp.49-52,
    Published 13 April 2014 (Elsevier),
    DOI:10.1016/j.susc.2014.04.003.

  18. "Role of applied bias and tip electronic structure in the scanning tunneling microscopy imaging of highly oriented pyrolytic graphite",
    Gilberto Teobaldi, Eiichi Inami, Jun'ichi Kanasaki, Katsumi Tanimura, and Alexander L Shluger,
    Physical Review B, vol.85 (2012) pp.085433:1-15,
    Published 27 February 2012 (American Physical Society),
    DOI:10.1103/PhysRevB.85.085433.

  19. "Intact-sheet double-layer ablation induced by femtosecond-laser excitation of graphite",
    Hiromasa Ohnishi, Eiichi Inami, and Jun'ichi Kanasaki,
    Surface Science, vol.605 (2011) pp.1497-1502,
    Published August 2011 (Elsevier),
    DOI:10.1016/j.susc.2011.05.020.

  20. "Local bond rupture of Si atoms on Si(111)-(2×1) induced by the surface π-π* excitation",
    Eiichi Inami and Katsumi Tanimura,
    Surface Science, vol.603 (2009) pp.L63-L65,
    Published 1 May 2009 (Elsevier),
    DOI:10.1016/j.susc.2009.03.003.

  21. "Formation of sp3-bonded carbon nanostructures by femtosecond laser excitation of graphite",
    Jun'ichi Kanasaki, Eiichi Inami, Katsumi Tanimura, Hiromasa Ohnishi, and Keiichiro Nasu,
    Physical Review Letters, vol.102 (2009) pp.087402:1-4,
    Published 23 February 2009 (American Physical Society),
    DOI:10.1103/PhysRevLett.102.087402.
    [Nature "Research Highlight"]
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    [Virtual Journal of Nanoscale Science and Technology vol.19, Issue 10 (2009)]
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  22. "Electronic bond rupture of Si atoms on Si(111)-(2×1) induced by valence excitation",
    Eiichi Inami and Katsumi Tanimura,
    Physical Review B, vol.76 (2007) pp.035311:1-11,
    Published 12 July 2007 (American Physical Society),
    DOI:10.1103/PhysRevB.76.035311.

    [Virtual Journal of Nanoscale Science and Technology vol.16, Issue 4 (2007)]

  23. "Fermi-level dependent morphology in photoinduced bond breaking on (110) surfaces of III-V semiconductors",
    Jun'ichi Kanasaki, Eiichi Inami and Katsumi Tanimura,
    Surface Science, vol.601 (2007) pp.2367-2372,
    Published 1 June 2007 (Elsevier),
    DOI:10.1016/j.susc.2007.04.042.

  24. "Two-hole localization mechanism for electronic bond rupture of surface atoms by laser-induced valence excitation of semiconductors",
    Katsumi Tanimura, Eiichi Inami, Jun'ichi Kanasaki, and Wayne P. Hess,
    Physical Review B, vol.74 (2006) pp.035337:1-8,
    Published 27 July 2006 (American Physical Society),
    DOI:10.1103/PhysRevB.74.035337.

  25. "Bond rupture of threefold-coordinated Si atoms at intrinsic sites on the Si(111)-(2×1) induced by 1.16eV photon excitation",
    Eiichi Inami, Ken'ichi Ishikawa, and Katsumi Tanimura,
    Surface Science, vol.540 (2003) pp.L587-L592,
    Published 10 August 2003 (Elsevier),
    DOI:10.1016/S0039-6028(03)00797-0.

  26. "Electronic bond rupture of Si atoms on Si(111)-(2×1) induced by 1.16eV photon excitation",
    Eiichi Inami, Ken'ichi Ishikawa, Jun'ichi Kanasaki, and Katsumi Tanimura,
    Surface Science, vol.528 (2003) pp.115-120,
    Published 20 March 2003 (Elsevier),
    DOI:10.1016/S0039-6028(02)02619-5.