Some error occured while loading the Quick View. Please close the Quick View and try reloading the page.
The book presents principles of electron magnetic resonance from a chemist’s point-of-view, covering g-tensor theory, isotropical hyperfine structure, anisotropical hyperfine structure and fine structure of spectrum, and relaxation theory. Detailed explanations on quantitative determination of paramagnetic species are given to address readers' difficulties. Written as a physical chemistry graduate textbook, it is also suitable for industry users.
Price: $106.99
Pages: 464
Publisher: De Gruyter
Imprint: De Gruyter
Series: De Gruyter Textbook
Publication Date:
05 August 2019
ISBN: 9783110528008
Format: Paperback
BISACs:
SCI013010 SCIENCE / Chemistry / Analytic, SCI013050 SCIENCE / Chemistry / Physical & Theoretical, SCI053000 SCIENCE / Physics / Optics & Light, SCI078000 SCIENCE / Spectroscopy & Spectrum Analysis
Yuanzhi Xu, Jia Yao, Zhejiang University, Hangzhou, China
Table of Content:
Chapter 1: Introduction
Chapter 2: Theoretical basics
Chapter 3: g-tensor theory
Chapter 4: Isotropical hyperfine structure of spectrum
Chapter 5: Anisotropical hyperfine structure of spectrum
Chapter 6: Fine structure of spectrum
Chapter 7: Relaxation theory & linesharpe, linewidths
Chapter 8: Quantitative determination
Chapter 9: Paramagnetic species in gas phase and inorganic radicals
Chapter 10: Spectra of transition metal ions and complexes
Appendix 1: Expansion & elongation of EMR
Appendix 2: Mathematics preparation
Appendix 3: Angular momentum theory & stable state perturbation of quantum mechanics
Appendix 4: Fundamental constants & conversion factors
Appendix 5: Characteristic property of some common nuclei
Chapter 1: Introduction
Chapter 2: Theoretical basics
Chapter 3: g-tensor theory
Chapter 4: Isotropical hyperfine structure of spectrum
Chapter 5: Anisotropical hyperfine structure of spectrum
Chapter 6: Fine structure of spectrum
Chapter 7: Relaxation theory & linesharpe, linewidths
Chapter 8: Quantitative determination
Chapter 9: Paramagnetic species in gas phase and inorganic radicals
Chapter 10: Spectra of transition metal ions and complexes
Appendix 1: Expansion & elongation of EMR
Appendix 2: Mathematics preparation
Appendix 3: Angular momentum theory & stable state perturbation of quantum mechanics
Appendix 4: Fundamental constants & conversion factors
Appendix 5: Characteristic property of some common nuclei