Personnel Information

写真a

MIYAUCHI Akihiro


Job title

Project Professor

Birth date

1962

Mail Address

miyauchi.ibb@tmd.ac.jp

Graduating School 【 display / non-display

  • Tokyo University of Science, Faculty of Science, Graduated

Graduate School 【 display / non-display

  • Tokyo Institute of Technology, Master's Course, Completed

Campus Career 【 display / non-display

  • 2018.01
    -
    Now
    Tokyo Medical and Dental University, Institute of Biomaterials and Bioengineering, Project Professor

External Career 【 display / non-display

  • Massachusetts Institute of Technology (MIT), Microsystems Technology Laboratories, Visiting Scientist
  • Tokyo University, Visiting Lecturer
  • Hitachi Ltd., Hitachi Research Laboratory, Chief Researcher

Research Areas 【 display / non-display

  • Nanobioscience

  • Electron device and electronic equipment

  • Inorganic materials and properties

 

Research Theme 【 display / non-display

  • Low-temperature growth of SiC layer.

  • CVD simulation incorporating gasu and surface reactions.

  • Research on nanoimprint and its applications.

  • Research on biomimetics.

  • Selective growth of Si layer by CVD method.

Published Papers & Misc 【 display / non-display

  1. Mariko Miyazaki, Hiroshi Moriya, Akihiro Miyauchi. Biomimetic Design Inspired Sharkskin Denticles for Growth Suppression of Biofilm Journal of Photopolymer Science and Technology. 2019.06; 32 (2): 295-301.

  2. Yuzuru Shimazaki, Akihiro Miyauchi. Effect of bumps on the stability of water droplets on the pillar surface Japanese Journal of Applied Physics. 2019.04; 58 SDDJ01.

  3. Mariko Miyazaki, Yuji Hirai, Hiroshi Moriya, Masatsugu Shimomura, Akihiro Miyauchi, Hao Liu. Biomimetic riblets inspired by sharkskin denticles: Digitizing, modeling and flow simulation Journal of Bionic Engineering. 2018.11; 15 (6): 999-1011.

  4. Shunya Ito, Motohiro Kasuya, Kenji Kawasaki, Ryuta Washiya, Yuzuru Shimazaki, Akihiro Miyauchi, Kazue Kurihara, Masaru Nakagawa. Selection of Diacrylate Monomers for Sub-15 nm Ultraviolet Nanoimprinting by Resonance Shear Measurement Langmuir. 2018.08; 34 (32): 9366-9375.

  5. Akihiro Miyauchi. Creation of Functional Surface by Informatics and Biomimetics Journal of Photopolymer Science and Technology. 2018.06; 31 (2): 267-270.

  6. Mariko Miyazaki, Yuji Hirai, Hiroshi Moriya, Masatsugu Shimomura, Akihiro Miyauchi, Hao Liu. Biomimetic design inspired Sharkskin denticles and modeling of diffuser for fluid control Journal of Photopolymer Science and Technology. 2018.06; 31 (1): 133-138.

  7. Akihiro Miyauchi, Kousuke Kuwabara, Mitsuru Hasegawa and Masahiko Ogino. Large-area nanoimprint and application to cell cultivation Applied Physics A: Materials Science and Processing. 2016.04; 122 (article id.265):

  8. Suppression of cell-spreading and phagocytic activity on nano-pillared surface: In vitro experiment using hemocytes of the colonial ascidian botryllus schlosseri Invertebrate Survival Journal. 2015.12;

  9. Does the tunic nipple array serve to camouflage diurnal salps? Journal of the Marine Biological Association of the United . 2015.05;

  10. Does the aquatic invertebrate nipple array prevent bubble adhesion? An experiment using nanopillar sheets. Biology letters. 2013.05;

  11. Fabrication of 200-nm dot pattern on 15-m-long polymer sheet using sheet nanoimprint method Japanese Journal of Applied Physics. 2013.04;

  12. Reduction in viscosity of quasi-2D-confined nanoimprint resin through the addition of fluorine-containing monomers: Shear resonance study ACS Applied Materials and Interfaces. 2013.04;

  13. Cell culture on nanopillar sheets - Mesenchymal stem cells form spheroids under chondrogenic differentiation depending on nanopillar sizes Nano Biomedicine. 2011.02;

  14. Resin elongation phenomenon of polystyrene nanopillars in nanoimprint lithography Japanese Journal of Applied Physics. 2010.10;

  15. Degradation behavior of release layers for nanoimprint lithography formed on atomically flat Si(111) terraces Journal of Vacuum Science and Technology B:Nanotechnology and Microelectronics. 2010.05;

  16. Enhancement of fluorescence intensity from an immunoassay chip using high-aspect-ratio nanopillars fabricated by nanoimprinting Applied Physics Letters. 2008.03;

  17. High-aspect-ratio nanopillar structures fabricated by nanoimprinting with elongation phenomenon Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures. 2008.02;

  18. Analysis on deterioration mechanism of release layer in nanoimprint process Journal of Photopolymer Science and Technology. 2007.04;

  19. Nanopillar sheets as a new type of cell culture dish: Detailed study of HeLa cells cultured on nanopillar sheets Journal of Artificial Organs. 2006.02;

  20. Ge fraction dependent improved thermal stability of in situ doped boron in polycrystalline Si1-xGex(0≤x≤0.5) films on SiON Journal of Applied Physics. 2005.05;

  21. Nanoimprint technology and applications Journal of Photopolymer Science and Technology. 2005.04;

  22. Mechanism of improved thermal stability of B in poly-SiGe gate on SiON Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers. 2002.04;

  23. MOSFETs with ultrashallow junction and minimum drain area formed by using solid-phase diffusion from SiGe IEEE Transactions on Electron Devices. 2001.07;

  24. Incorporation of oxygen and chlorine atoms into low-temperature (850°C) silicon epitaxial films by chemical vapor deposition Applied Physics Letters. 1995.04;

  25. X-Ray Reflectivity Measurement of an interface Layer Between a Low Temperature Silicon Epitaxial Layer and HF-Treated Silicon Substrate Journal of the Electrochemical Society. 1994.05;

  26. Low-Temperature (850°C) Silicon Selective Epitaxial Growth on HF-Treated Si (100) Substrates Using SiH4-HCl-H2 Systems Journal of the Electrochemical Society. 1991.11;

  27. Low-Temperature (900°C) Si Epitaxial Growth on Si (100) after HF Treatment Journal of the Electrochemical Society. 1990.10;

  28. Interface impurities of low-temperature (900°C) deposited Si epitaxial films prepared by HF treatments Applied Physics Letters. 1990.07;

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Books etc 【 display / non-display

  1. Akihiro Miyauchi, Masatsugu Shimomura. Biomimetics: Connecting Ecology and Engineering by Informatics. Jenny Stanford Publishing, 2022.09 (ISBN : 978-9814968102)

  2. Akihiro Miyauchi, Yuji Miyahara. Biomedical Engineering. Jenny Stanford Publishing, 2021.11 (ISBN : 978-9814877633)

  3. Akihiro Miyauchi, Masatsugu Shimomura. Industrial Biomimetics. Jenny Stanford Publishing, 2019.06 (ISBN : 978-981-4800-07-5)

  4. Akihiro Miyauchi. Nanoimprinting and Its Applications. Jenny Stanford Publishing, 2019.06 (ISBN : 978-981-4800-37-2)

Conference Activities & Talks 【 display / non-display

  1. Mariko Miyazaki, Hiroshi Moriya, Akihiro Miyauchi. Biomimetic Design Inspired Sharkskin Denticles for Growth Suppression of Biofilm. The 36th International Conference of Photopolymer Science and Technology 2019.06.25

  2. Akihiro Miyauchi. Creation of Functional Surface by Informatics and Biomimetics. The 35th International Conference of Photopolymer Science and Technology 2018.06.25

  3. Akihiro Miyauchi. Nanoimprint technology for large area and uniformity. The 21th International Conference on Nanoimprint and Nanoprint Technology 2013.10.21

  4. Akihiro Miyauchi. Nanoimprint and applications. 1st Annual World Congress of Nano-S&T 2011.10.23

  5. Akihiro Miyauchi. Nanoimprint for Device Application. 2008 MRS Fall Meeting 2008.12.01

  6. Akihiro Miyauchi. Sheet nanoimprint for film fabrication. 1st Asian Symposium on Nano Imprint Lithography (ASNIL 2008) 2008.04.24

  7. Akihiro Miyauchi. Nanoimprint Technology and Applications. Photopolymer Conference 2005.06.22

  8. Akihiro Miyauchi. NANOIMPRINT TECHNOLOGY AND APPLICATIONS. INTERMAG 2005 2005.04.04

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