1 / 10

無機物理方法(核磁共振部分)

無機物理方法(核磁共振部分). The Physical Methods in Inorganic Chemistry (Fall Term, 2004) Department of Chemistry National Sun Yat-sen University. 老師 The Professor Dr. Shangwu Ding 丁尚武 Campus phone : 3917, Office: 理東 4022 ding@mail.nsysu.edu.tw http://www2.nsysu.edu.tw/sysuchem/sw_ding_home.htm

bina
Télécharger la présentation

無機物理方法(核磁共振部分)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 無機物理方法(核磁共振部分) The Physical Methods in Inorganic Chemistry(Fall Term, 2004)Department of ChemistryNational Sun Yat-sen University

  2. 老師 The Professor • Dr. Shangwu Ding 丁尚武 • Campus phone:3917, Office: 理東4022 • ding@mail.nsysu.edu.tw • http://www2.nsysu.edu.tw/sysuchem/sw_ding_home.htm 志願助教 The Teaching Assistants 吳振,梁文彥,陳彥志 ,李昆達 校內分機:3917, 理東4022 林研詩,巫秀娟,曾彥翰 校內分機:3917, 理東4022

  3. Lecture Hours: • 11:00am-12:00 pm, Mondays; • 10:00am-12:00 pm, Tuesdays. (化4002), begins from Sept 15,2004. • Office Hours:4:00-6:00 pm, Tuesdays (理東4022)

  4. Contents (1) The basic principles of FT-NMR spectroscopy; (2) The mostly used liquid state NMR experiments; (3) The typical solid state NMR experiments; (4) Applications to inorganic chemistry and materials science. • Theory: • 1. Generation of FID, vector model, basic principle of FT NMR • 2. NMR parameters: chemical shift, dipolar and J-couplings, quadrupolar coupling, relation times, exchange rates • 3. Simple 1D NMR experiments • 4. Simple 2D NMR experiments • 5. Basic applications: structure determination • 6. Introductory solid state NMR • 7. Applications of solid state NMR • NMR experiments: • Sample preparation, shimming/lock, basic commands • Single-pulse experiment • T1/T2 experiment • DEPT • COSY • CP-MAS

  5. Purpose • The students will have learnt the elementary theoretical principle and experimental techniques and employ them to assist their respective research projects, particularly in the area of inorganic chemistry.

  6. Schedules • Theory: • 1.Introduction, generation of FID, vector model, basic principle of FT NMR, • NMR parameters: chemical shift, dipolar and J-couplings, quadrupolar coupling, relation times, exchange rates, • Simple 1D NMR experiments • 2. Polarization transfer and spectral editing • 3. Relaxation and exchange • 4. Simple 2D NMR experiments • Basic applications: structure determination • 5. Introductory solid state NMR • NMR experiments: • Sample preparation, shimming/lock, basic commands • Single-pulse experiment • T1/T2 experiment • DEPT • COSY/NOESY • CP-MAS • Total hours: ~21 hours • (Lecture: ~15 hours; Lab: ~6 hours)

  7. Instruction Techniques • 1.Lecture / NMR Lab • 3.Quiz • 4. Discussion

  8. Grading Policy Assignments/Quizzes (35 % each) Experiments (25%) Final exam (40%) One Assignment/Lab Each Week (Deadline: 17:00pm, Fridays)

  9. Reference Books 參考書: • 1. C. Akitt, "NMR for Chemists", Academic Press, New York, 1988. • 2. M. Hunter, "Introdctory NMR Spectroscopy", CFC Press, Guelph, 1983. • 3. M. H. Levitt, "Spin Dynamics: basics of nuclear magnetic resonance", John Wiley & Sons, 2001.

  10. Web Sites • 1.磁共振光譜及成像綜合情報網:http://spincore.com/nmrinfo/ • 2. 電子書 NMR─BASICS (nmr basics亦可由本課程之網頁直接下載壓縮檔,解壓縮後離線閱讀) • 3.本實驗室NMR網上課程

More Related