Subject
Code** |
Subject |
Credit |
Content of subject |
|
|
※20DFM001** |
Functional Biomolecular Science
|
2 |
1. Basics and applications of solution and solid-state NMR spectroscopy in structural analyses of biomolecules
2. Basics of microscopy, Single-molecule imaging, Optical tweezers, Magnetic tweezers, Super resolution microscopy, High-speed atomic force microscopy
3. Functional mechanisms of biomacromolecules including glycoproteins, membrane proteins, and multidomain proteins, Working mechanisms of motor proteins, Molecular basis of protein assembly |
Ryota Iino Koichi Kato Katsuyuki Nishimura |
|
20DFM002** |
Complex Catalysis |
2 |
Molecular structures and functions of complex catalysts will be overviewed based on the understanding the features of transition metal catalysis, Lewis acid·Lewis base catalysis, and organo catalysis in catalytic molecular transformations. |
Yasuhiro Uozumi
Norie Momiyama |
|
※20DFM003** |
Quantum dynamics |
2 |
Lecture on principles of direct observation and control of ultrafast quantum dynamics of matter (in femto-and attosecond time scale) by using light and recent experimental trials in the relevant field. |
Kenji Ohmori |
|
※20DFM004**
|
Photo-physics |
2 |
Synchrotron radiation is an important tool for elucidating the electronic and atomic structures that govern the properties and functions of matter.
In the first half, we will give a lecture on electromagnetic radiation generation from relativistic electron beams (synchrotron radiation) and basic knowledge of optics. In the second half, we will summarize the interaction between light and matter, and outline the basic technology and application development of physical property analysis methods (photoelectron spectroscopy, X-ray absorption spectroscopy, etc.) using synchrotron radiation. |
Fumihiko Matsui Yoshitaka Taira |
|
20DFM005** |
Molecular Functional Materials |
2 |
In this lecture, one of the following topics will be delivered : Solid state physics and fundamental knowledge of electronic properties measurement and device physics for molecular solids. |
Masahiro Hiramoto
Tetsuro Kusamoto |
|
※90DFM001** |
Exercise on Functional
Molecular Science Ⅰ |
4 |
Discussion, experimental instructions, and/or theoretical
studies for the student to perform the individual fundamental and applied research in the field of
functional molecular science. This program is provided by appropriate teaching stuffs based on the research subjectt. |
|
|
※90DFM002** |
Exercise on Functional
Molecular Science Ⅱ |
4 |
|
|
※90DFM003** |
Exercise on Functional
Molecular Science Ⅲ |
4 |
|
|
※90DFM004** |
Exercise on Functional
Molecular Science Ⅳ |
4 |
|
|
※90DFM005** |
Exercise on Functional
Molecular Science Ⅴ |
4 |
|
|
※90DFM006** |
Seminar on functional
Molecular Science Ⅰ |
4 |
Small size seminar to gain scientific knowledge, competence for scientific consideration, discussion, and research formance, and original scientific conceptions in the field of fundamental and applied functional molecular science. This program is provided by appropriate teaching stuffs based on the research subject of the individual student. |
|
|
※90DFM007** |
Seminar on functional
Molecular Science Ⅱ |
4 |
|
|
※90DFM008** |
Seminar on functional
Molecular Science Ⅲ |
4 |
|
|
※90DFM009** |
Seminar on functional
Molecular Science Ⅳ |
4 |
|
|
※90DFM010** |
Seminar on functional
Molecular Science Ⅴ |
4 |
|
|
※10DFM001** |
English for scientific research |
2 |
The principal aim of this course is to improve academic reading, acadimic writing, listenig, and speaking in English for scientific research.
*Opening every year
(First Semester・ Second Semester) |
Sechrist, Jeremiah S
Members of dept. of
functional molecular
science |
