Beyond the boundaries of existing engineering, aiming the creation of new engineering and new materials contribute to the development of the industry, make the development of human resources to contribute to society in Bath expertise of material engineering.
■It emphasizes the basic science (physics, chemistry, biology) as a starting point for teaching and research.
■ transcends the existing fields in materials engineering, we will work to expand the fusion of basic science out of the box.
■ I produced a creative talent that is familiar with basic science.
Materials Science and Engineering to be active in the personal belongings
Here is interesting material engineering
Materials engineering are manifold also exit if diversity also entrance
Basic science as the entrance is used according to the problems to be solved both of physics and chemistry , earth science and biology takes advantage sometimes . There is also a material to be used in diagnostic medical and material that produces material engineering , knowledge of biology is required in the development of biomaterials such . High temperature and high pressure , which is one of the extreme conditions for the creation of new materials in the state in which a naturally occurring deep in the ground , gems and minerals that we in the eye is actually a product of extreme conditions such . The " make " the material to learn the biological sometimes , we learn to Earth . Diversity of the exit of material engineering Do not be say . All materials around us is the subject of research . There are a lot of material that has been active behind the scenes Nakaniwa . When you have to talk on the phone , the voice is transmitted through the optical fiber in the is converted into an optical signal , laid in the ground . Optoelectronic devices and semiconductor glass fiber , a variety has been used in there , each device is a gift of materials research .
Modern society is said to be opaque is in the chaos . Era of chaos that was once known
I will train the human resources to build a new world in a free taste of curiosity and ideas
Sep. 19, 2012
IOPselect, The Institute of Physics
Ordering and dynamics of the central tetrahedron in the 1/1 Zn6Sc periodic approximant to quasicrystal
June. 2, 2011
Young Scientist the Best Oral Presentation Award, 6 th Asian International Workshop on Quasicrystal
Diffuse scattering and phason modes in the Zn-Sc icosahedral quasicrystal
Jan. 4, 2011
Young Scientist Award, The Materials Research Society of Japan
Variety of magnetic properties in solids made of rare-earth icosahedral clusters
Aug. 12, 2010
The Japan Institute of Metals Murakami Young Researcher Award
For outstanding research accomplishment in the metal engineering
Feb. 15, 2010
Papers of Editors’ Choice, Journal of Physical Society of Japan (JPSJ)
Superconductivity and Structural Phase Transitions in Caged Compounds RT2Zn20 (R=La,Pr,T=Ru,Ir)
July. 11, 2008
Award for Best Student Presentation, 10th International Conference on Quasicrystals
Preparation and TEM Study of Ag-In- (Eu, Ce) Ternary Approximants
Nov. 10, 2007
Young Scientist Award of the Physical Society of Japan
For the discovery of novel low-temperature phase transitions in crystalline approximants