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Masahiko Tomitori Professor
School of Materials Science、Applied Physics Area

Results 1-20 of about 61

  • 1. Microanalysis of silicon protrusions with a titanium cap formed via surface melting and solidification under applied tensile stress,Nishimura Takashi and Masahiko Tomitori,Japanese Journal of Applied Physics,58,2,025501, 7,2019/01/08
  • 2. Hierarchical bimetallic AgPt nanoferns as high-performance catalysts for selective acetone hydrogenation to isopropanol,Elvy Rahmi Mawarnis, Akrajas Ali Umar, Masahiko Tomitori, Aamna Balouch, Muhammad Nurdin, Muhammad Zakir Muzakkar, and Munetaka Oyama,ACS Omega,3,11526, 11,2018/09/20
  • 3. Thermal stability of single-atom termination at a pyramidal apex of an Ir-W tip,Chuhei Oshima, Masahiko Tomitori, Tatsuya Shimoda, Anto Yasaka, Hirotaka Asai, and Eiji Rokuta,e-Journal of Surface Science and Nanotechnology,16,294, 4,2018/06/21
  • 4. Dependence of calcium phosphate formation on nanostructure of rutile TiO2(110) surfaces,Akira Sasahara, Tatsuya Murakami, and Masahiko Tomitori,Japanese Journal of Applied Physics,57,115501, 7,2018
  • 5. Resistivity change in Joule heat energy dissipation detected by noncontact atomic force microscopy using a silicon tip terminated with/without atomic hydrogen,Toyoko Arai, Ryo Inamura, Daiki Kura, and Masahiko Tomitori,Japanese Journal of Applied Physics,57,08NB04, 6,2018/07/09
  • 6. XPS and STM study of TiO2(110)-(1×1) surfaces immersed in simulated body fluid,A. Sasahara, T. Murakami, and M. Tomitori,Surface Science,668,61, 7 pages,2017/10/21
  • 7. Nanoscale characterisation of TiO2(110) annealed in air,Akira Sasahara, Tatsuya Murakami, Tu Tran Uyen Le and Masahiko Tomitori,Applied Surface Science,428,1000, 6 pages,2017/9/29
  • 8. Two-dimensional, hierarchical Ag-doped TiO2 nanocatalysts: effect of the metal oxidation state on the photocatalytic properties,Siti Khatijah Md Saad, Akrajas Ali Umar, Marjoni Imamora Ali Umar, Masahiko Tomitori, Mohd. Yusri Abd. Rahman, Muhamad Mat Salleh, and Munetaka Oyama,ACS Omega,3,2579, 9 pages,2018/02/20
  • 9. Energy dissipation unveils atomic displacement in the noncontact atomic force microscopy imaging of Si(111)-(7×7),Toyoko Arai, Ryo Inamura, Daiki Kura, and Masahiko Tomitori,Physical Review B,97,115428, 6 pages,2018/03/19
  • 10. Quasi-stabilized hydration layers on muscovite mica under a thin water film grown from humid air,Toyoko Arai, Kohei Sato, Asuka Iida, and Masahiko Tomitori,Scientific Reports,7,4054, 11 pages,2017/06/22
  • 11. Evaluation and optimization of quartz resonant-frequency retuned fork force sensors with high Q factors, and the associated electric circuits, for non-contact atomic force microscopy,H. Ooe, M. Fujii, M. Tomitori and T. Arai,Review of Scientific Instruments,87,023702, 8,2016/02/10
  • 12. Atomic-scale electric capacitive change detected with a charge amplifier installed in a non-contact atomic force microscope,M. Nogami, A. Sasahara, T. Arai and M. Tomitori,Applied Physics Express,9,046601, 4 pages,2016/02/25
  • 13. Local protrusions formed on Si(111) surface by surface melting and solidification under applied tensile stress,Takashi Nishimura and Masahiko Tomitori,Applied Physics Letters,109,121201, 4 pages,2016/09/20
  • 14. An atomic scale study of TiO2(110) surfaces exposed to humid environments,Akira Sasahara, Masahiko Tomitori,Journal of Physical Chemistry C,120,21427, 9 pages,2016/09/02
  • 15. Water wettability of Si(111) and (001) surfaces prepared to be reconstructed, atomic-hydrogen terminated and thinly oxidized in an ultrahigh vacuum chamber,T. Miyagi, A. Sasahara and M. Tomitori,Appl. Surf. Sci. 349 904-910,349,904, 7,2015/05/21
  • 16. Atom-resolved analysis of an ionic KBr(001) crystal surface covered with a thin water layer by frequency modulation atomic force microscopy,T. Arai, M. Koshioka, K. Abe, M. Tomitori, R. Kokawa, M. Ohta, H. Yamada, K. Kobayashi, and N. Oyabu,Langmuir,31,13,3876, 8,2015/03/19
  • 17. Difference in etching of Si(111) and (001) surfaces induced by atomic hydrogen irradiation observed with non-contact atomic force microscopy,T. Miyagi, A. Sasahara and M. Tomitori, Jpn. J. Appl. Phys.,54,08LB08, 5,2015/07/24
  • 18. Hydration of MgO(100) surface promoted at <011> steps,A. Sasahara, T. Murakami, and M. Tomitori,J. Phys. Chem. C,119,8250, 8,2015/03/31
  • 19. Microscopic techniques bridging between nanoscale and micro scale with an atomically sharpened tip - field ion microscopy/scanning probe microscopy/ scanning electron microscopy,M. Tomitori and A. Sasahara,Microscopy,63,S1,i11, 1,2014/11
  • 20. Thermal transformation of 4,4"-diamino-p-terphenyl on a Si(111)-7×7 surface analyzed by X-ray photoemission spectroscopy and scanning tunneling microscopy,T. Nishimura, A. Sasahara, H. Murata, T. Arai and M. Tomitori,J. Phys. Chem. C,118,25104, 6,2014/10/6

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