開課系所: 化學系、所(選修)

         課程名稱:電子自旋共振光譜 (2學分)

         課程編號: 223 U0700

         授課對象: 化學所碩、博士生選修

                            化學系大三、大四生選修

         授課老師: 陳長謙教授

 

課程綱要

主講人:陳長謙 博士

中央研究院副院長暨化學研究所特聘研究員

國立台灣大學化學系兼任教授

授課課程:電子順磁光譜學簡介

 Course Plan

Department of Chemistry, National Taiwan University

by

Sunney I. Chan, Ph. D

Vice President, Academia Sinica

& Distinguished Research Fellow, Institute of Chemistry

Adjunct Professor, Department of Chemistry, National Taiwan University

 

 

Title:  Introduction to Electron Paramagnetic Resonance Spectroscopy

                        Credit:  2 or 3

 

Course Description:

 

This course is designed for graduate students and advanced undergraduates doing research in chemistry who are interested in an in-depth exposure to the electron paramagnetic resonance spectroscopy, as applied to chemistry, biochemistry, and the biomedical sciences.  The course will begin with an introduction to the spectroscopy of electron paramagnetic resonance, and proceed to discuss the application of this spectroscopy to organic free radicals, biradicals and organic triplets, spin labels, transition metals, and metalloproteins.  In addition, it will cover a number of modern experiments, including Fourier transform EPR, transient EPR, ENDOR and ESEEM, as these techniques are used to probe electronic structure and molecular structure in paramagnetic systems.  The students enrolling in this course should have completed a course in modern physical chemistry, and have some fundamental knowledge about elementary quantum mechanics and quantum chemistry..  After the students have completed this course, they should be prepared to know when and under what circumstances EPR methods could be applied to various chemical, biochemical and biological problems.  They should also be in the position to read the literature involving papers where these methods are used to derive electronic and molecular structure information about chemical, biochemical and biological systems.  This course will meet three hours per week.  The lectures will be given in English.

 

Course Materials

1.            Handouts and lecture notes will be provided.

2.            Recommended books for further reading:

a.          Andrew D. McLachlan, Introduction to Magnetic Resonance, John Wiley & Sons, New York, NY

b.          George Pake, Electron Paramagnetic Resonance of Transition Metals, Benjamin and Freeman Press, Palo Alto, CA