Functional materials creation course
Functional materials creation course
This course integrates the fields of physics, chemistry, and electrical and electronic engineering, and teaches the creation of materials with new functions and their applications.
Research fields in the Functional Materials Creation course include solid state physics, new superconducting materials, the creation of magnetic materials, thin film and surface physics, analysis of the physical properties of material surfaces, solid-state electronic properties, the synthesis and analysis of electronic thin film materials, solid-state chemistry, the creation of inorganic thin film materials with advanced functions, mesoscopic physics, the development of quantum nanodevices, theory of physical properties, and the material design of new functional substances.
Basic information Graduate School of Science and Engineering
The Graduate School of Science and Engineering website contains past entrance examination questions from Graduate School of Science and Engineering.
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Educational and research objectives and three policies
We will introduce the educational objectives of the Functional Materials Creation course and three policies, including the admission policy.
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Course subjects and lecture contents
We would like to introduce the curriculum for the Functional Materials Creation course.
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Course model and main subject features
Graduate School of Science and Engineering Material Science Course The following is a model of the course of study and features of the main subjects of the program.
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Completion requirements etc.
This page introduces the requirements for completing the Functional Materials Design course, including grading, promotion requirements, number of credits required to complete the course, and the degree to be obtained.