



Takuo Ohkochi's research is grounded in synchrotron radiation engineering, where he analyzes and helps control advanced materials and devices — including graphene and semiconductors — with an eye toward next-generation technology. This expertise shapes his teaching within the School of Engineering and Graduate School of Engineering, bringing specialized knowledge in materials science directly into the classroom.
In this research area, students gain hands-on experience investigating graphene, semiconductors, and battery materials using synchrotron-radiation-based devices, developing skills in experimental and analytical methods, vacuum technology, data interpretation, and clear technical communication.
This research theme investigates the properties of graphene, semiconductors, and battery materials using synchrotron-radiation-based devices and vacuum-based analytical techniques. By connecting fundamental principles with engineering applications, the work builds the ability to define problems clearly, evaluate evidence, and propose practical solutions.
Here, students learn to examine the structure, control, and electronic properties of devices at the nanotechnology scale, applying analytical methods to materials relevant to next-generation technology, and developing skills in data interpretation and clear technical communication.
This theme examines the structure, control, and electronic properties of devices and materials at the nanotechnology scale, with an emphasis on next-generation technology. By linking fundamental principles to engineering applications, the work develops the ability to define problems, evaluate evidence, and propose practical solutions.