Instrumental Analysis,Adv.II
| Numbering Code |
G-ENG15 5D046 SJ60 G-ENG14 7D046 SJ61 G-ENG13 8D046 SJ61 G-ENG17 8D046 SJ76 |
Year/Term | 2022 ・ Second semester | |
|---|---|---|---|---|
| Number of Credits | 1 | Course Type | Seminar | |
| Target Year | Target Student | |||
| Language | Japanese | Day/Period | Thu.4・5 | |
| Instructor name | OOE KOUICHI (Graduate School of Engineering Professor) | |||
| Outline and Purpose of the Course | This postgraduate subject is aimed at students in the six chemistry majors offered by the Graduate School of Engineering. In this subject, lectures and practical training are provided in a relay fashion by the instructors-in-charge and TAs. The main purpose of each subject is to help students in graduate school master's and doctoral programs acquire advanced scientific instrumental analysis skills by understanding the principles of two types of advanced instrumental analysis and conducting practical training. Students will take lectures on each device to acquire knowledge of analysis principles and methods, and then carry out basic training and applied training for each device. | |||
| Course Goals | Through lectures and practical training, the subject ultimately aims to help students learn about analysis methods that involve the use of advanced scientific instruments, and to improve their analytical accuracy as a tool with which they can analyze new substances and scientific phenomena in their individual research. | |||
| Schedule and Contents |
Advanced Instrumental Analysis (1 session) A review of HPLC-MASS, NMR, and STEM analysis. Advanced Instrumental Analysis (2 sessions) We will explain in detail the application of high performance liquid chromatography (HPLC) and mass spectrometry in the analysis of trace components in environmental samples and biological samples from this principle, as well as give a lecture on the high-sensitivity analysis method for tandem type equipment. Advanced Instrumental Analysis (2 sessions) Lectures will cover the measurement principle of NMR, the two-dimensional measurement method, and the data analysis method. Advanced Instrumental Analysis (2 sessions) Students will learn the principles, functions, features, and application examples of scanning transmission electron microscopes (STEMs), and attend lectures on high-resolution observation and element distribution analysis. Practical training using equipment [Basic task training] (2 sessions) Practicing tasks given by the instructor. Practical training involving the use of instruments [training for applied tasks] (2 sessions) Students engage in practical training for tasks assigned by the instructor-in-charge. |
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| Evaluation Methods and Policy | Evaluations of reports on practical exercise. | |||
| Course Requirements | Undergraduate level "Physical Chemistry," "Organic Chemistry," and "Analytical Chemistry" are required. | |||
| Study outside of Class (preparation and review) | Contact us if necessary. | |||
| Textbooks | Textbooks/References | Distribute materials to be used based on the content of lectures. | ||
| References, etc. | Others | |||
