Fujita Jun-ichi

Researcher's full information

Articles

• Chemical dopants on edge of holey graphene accelerate electrochemical hydrogen evolution reaction
  Kumatani Akichika; Miura Chiho; Kuramochi Hirotaka; Ohto ...
  Advanced Science/6(10)/pp.1-8, 2019-04
  
  PubMed Tsukuba Repository
• Lithium intercalation into bilayer graphene
  Ji Kemeng; Hirata Akihiko; Fujita Takeshi; Shen Yuhao; Ni...
  Nature Communications/10(275)/pp.1-10, 2019-01
• Boosting electrochemical water splitting via ternary NiMoCo hybrid nanowire arrays
  Hu Kailong; Wu Mingxing; Hinokuma Satoshi; Ohto Tatsu...
  JOURNAL OF MATERIALS CHEMISTRY A/7(5)/pp.2156-2164, 2019-02
• Lithium intercalation into bilayer graphene
  Ji Kemeng; Han Jiuhui; Hirata Akihiko; Fujita Takeshi; Sh...
  NATURE COMMUNICATIONS/10, 2019-01
  
  PubMed Tsukuba Repository
• Visualization of Localized Field Using Deflection of Low-Energy Electron Beam with SEM/STEM
  藤田 淳一
  Journal of the Vacuum Society of Japan/60(10)/pp.397-405, 2017
  
  CiNii Tsukuba Repository
• Bottom-up Synthesis of Porous NiMo Alloy for Hydrogen Evolution Reaction
  Hu Kailong; Jeong Samuel; Wakisaka Mitsuru; Fujita Jun-i...
  METALS/8(83)/pp.1-9, 2018-01
• Near room temperature chemical vapor deposition of graphene with diluted methane and molten gallium catalyst
  Fujita Jun-ichi; Hiyama Takaki; Hirukawa Ayaka; Kondo Ta...
  Scientific Reports/7/pp.12371-12380, 2017-9
• Cooperation between holey graphene and NiMo alloy for hydrogen evolution in acidic electrolyte
  Ito Yoshikazu; Ohto Tatsuhiko; Hojo Daisuke; Wakisaka Mi...
  ACS Catal./8(4)/pp.3579-3586, 2018-03
• Graphene Layer Encapsulation of Non-Noble Metal Nanoparticles as Acid-Stable Hydrogen Evolution Catalysts
  Hu Kailong; Ohto Tatsuhiko; Chen Linghan; Han Jiuhui; Wak...
  ACS Energy Lett./3(7)/pp.1539-1544, 2018-06
• High-sensitivity visualization of localized electric fields using low-energy electron beam deflection
  Jeong Samuel; Ito Yoshikazu; Edwards Gary; Fujita Jun...
  Jpn. J. Appl. Phys./57(6)/p.65201, 2018-06
  
  CiNii
• Graphitic cage transformation by electron-beam-induced catalysis with alkali-halide nanocrystals
  Fujita Jun-ichi; M. Tachi; N. Ito1; K. Murakami; M. Takeguchi
  Jpn. J. Appl. Phys./55(5)/p.055102, 2016
  
  CiNii
• Synthesis of graphene nanoribbons from amyloid fibrils by solid-phase graphitization using liquid gallium catalyst
  Fujita Jun-ichi; Tianchen Dong; Yuya Kajiwara; Takaki Hiyama...
  MRS Proceedings/p.1658, 2014-05
• Synthesis of graphene nanoribbons from amyloid templates by gallium solid-phase graphitization using gallium vapor catalyst
  K. Murakami; T. Dong; Y. Kajiwara; T. Hiyama; T. Takahashi; E....
  Applied Physics Letters/104(24)/p.243101, 2014-06
• Beam-induced graphitic carbon cage transformation from sumanene aggregates
  Fujita Jun-ichi; Masashi Tachi; Katsuhisa Murakami; Hidehiro...
  Applied Physics Letters/104(4)/p.043107, 2014-01
  
  Tsukuba Repository
• Damage and strain in single-layer graphene induced by very-low-energy electron-beam irradiation
  Katsuhisa Murakami; Takuya Kadowaki; Jun-ichi Fujita
  Applied Physics Letters/102(4), 2013-01
  
  Tsukuba Repository
• Maniputation of an Atomic Beam by Computer Generated Hologram
  藤田 淳一
  Nature/380/p.691-694, 1996-01
• Three dimensional nanostructure fabricated focused ion beam chemical vapor deposition
  藤田 淳一
  J. Vac. Sci. Technol./B18/p.3181-3184, 2000-01
• Interferometric Maniputation of an Atomic Beam by an Electric Field : A phase Hologram for Atoms.
  藤田 淳一
  Phys. Rev. Lett./84/p.4027-4030, 2000-01
• Observation and Characteristics of Mecanical Vibration in three dimensional nanostructures and pillers grown by foused ion beam chemical vapor deposition
  藤田 淳一
  J. Vac. Sci. Technol./B19/p.2834-2837, 2001-01
• Graphization of Fe-doped amorphous carbon pillars grown by focused-ion-beam-induced chemical-vapor deposition
  藤田 淳一
  J. Vac. Sci. Techonol/1320/p.2686-2689, 2002-01
• Growth Manner and Mechanical Characteristics of Amorphous Carbon Nanopillars Grown by Electron-Beam-Induced Chemical Vapor Deposition
  S. Okada; T. Mukawa; R. Kobayashi; J. Fujita; M. Ishida; ...
  Jpn. J. Appl. Phys./44/p.5646-5649, 2005-01
• Position-Controlled Carbon Fiber Growth Catalyzed Using Electron Beam-Induced Chemical Vapor Deposition Ferrocene Nanopillars
  T. Mukawa; S. Okada; R. Kobayashi; J. Fujita; M. Ishida; ...
  Jap. J. Appl. Phys./44/p.5639-5642, 2005-01
• Position controlled growth in carbon nanotubes catalyzed by an iron nano-dot array
  J. Fujita; T. Mukawa; S. Okada; R. Kobayashi; M. Ishida; ...
  Mater. Res. Soc. Symp. Proc./Vol. 900E/p.O900-O09-03.1, 2006-01
• Comparison of Young's Modulus Dependency on Beam Accelerating Voltage between Electron-Beam- and Focused Ion-Beam-Induced Chemical Vapor Deposition Pillars
  S. Okada; T. Mukawa; R. Kobayashi; M. Ishida; Y. Ochiai; ...
  Jpn. J. Appl. Phys/45/p.5556-5569, 2006-01
• Elastic Double Structure of Amorphous Carbon Pillar Grown by Focused-Ion-Beam Chemical Vapor Deposition
  Jun-ichi Fujita; Satoshi Okada; Ryuichi Ueki; Masahiko I...
  Jpn.J.Apple.Phys.Lett./Vol. 46(9B), 2007-09
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