Hiroki NADA,
Senior Researcher
Environmental Management Research Institute, National Institute of Advanced Industrial Science and Technology (AIST)
Contact Information
Address: 16-1 Onogawa, Tsukuba, 305-8569
E-mail: hiroki.nada“at”aist.go.jp (but replace "at" with "@")
Personal Homepage:http://unit.aist.go.jp/emtech-ri/26env-fluid/member/member_en.html
E-mail: hiroki.nada“at”aist.go.jp (but replace "at" with "@")
Personal Homepage:http://unit.aist.go.jp/emtech-ri/26env-fluid/member/member_en.html
Fields of Interest
Crystal Growth, Computational Physics
Professional Experience
| 1991-1995 | Undergraduate & Graduate Research, Hokkaido University |
| 1995-1997 | Postdoctoral Fellow, National Institute for Resources and Environment |
| 1997-2000 | Researcher, National Institute for Resources and Environment |
| 2001-present | Senior Researcher, National Institute of Advanced Industrial Science and Technology |
Education
Dr. 1996, Hokkaido University
Membership of Academic Societies
The Physical Society of Japan, The Japanese Association for Crystal Growth
Awards & Honors
- The Japan Society of Applied Physics; JSAP Award B (Outstanding Young Scientist Award) (1996)
- The Japanese Association for Crystal Growth; JACG the Best Paper Award (2008)
Research Project
Computer Simulation on Creative Development of Fusion Materials through Molecular Control
Selected Publications
- Nada, H., Furukawa, Y.
“Antifreeze Proteins: Computer Simulation Studies on the Mechanism of Ice Growth Inhibition”,
Polymer J., 44, 690-698 (2012). - Nada, H., Furukawa, Y.
“Growth Inhibition at the Ice Prismatic Plane Induced by a Spruce Budworm Antifreeze Protein: A Molecular Dynamics Simulation Study”,
Phys. Chem. Chem. Phys., 13, 19936-19942 (2011). - Nada, H.
“Analysis of Ice Crystal Growth Shape under High Pressure Using Molecular Dynamics Simulation”,
Cryst. Growth. & Des., 11, 19936-19942 (2011). - Nada, H., Furukawa, Y.
“Growth Mechanism of a Hexagonal Bipyramidal Ice Crystal in the Presence of Winter Flounder Antifreeze Proteins”,
Physics and Chemistry of Ice 2010, 429-436 (2011). - Nada, H., Zepeda, S., Miura, H., Furukawa, Y.
“Significant Alternations in Anisotropic Ice Growth Rate Induced by the Ice-Nucleation-Active Bacteria Xanthomonas Campestris”,
Chem. Phys. Lett., 498, 101-106 (2010).