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Multifrequency Electron Paramagnetic Resonance: Data and Techniques

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ISBN: 978-3-527-67243-1

March 2014

320 pages

Description
This handbook is aimed to deliver an up-to-date account of some of the recently developed experimental and theoretical methods in EPR, as well as a complete up-to-date listing of the experimentally determined values of multifrequency transition-ion spin Hamiltonian parameters by Sushil Misra, reported in the past 20 years, extending such a listing published by him in the Handbook on Electron Spin Resonance, volume 2. This extensive data tabulation makes up roughly 60% of the book`s content. It is complemented by the first full compilation of hyperfine splittings and g-factors for aminoxyl (nitroxide) radicals since 197 by Larry Berliner, a world expert on spin labeling, helping to identify and interpret substances and processes by means of EPR techniques. The book also includes coverage of the recently developed experimental technique of rapid-scan EPR by Sandra Eaton and Gareth Eaton, and a thorough review of computational modeling in EPR by Stefan Stoll, author of Easy Spin.
About the Author
Sushil Misra has done extensive experimental and theoretical research in the area of electron spin resonance (ESR) for the last 28 years. Currently, he is a collaborating faculty member at the Advanced Center for Electron Spin Research technology at Cornell University. He has written many review articles and book chapters on the subject and published over 225 papers in refereed journals in the field of ESR. As a specialist frequently invited to international conferences and his involvement with the International EPR Society he not only contributed a significant portion to the Handbook on Electron Spin Resonance, volume 2, but also published another book with Wiley-VCH entitled "Multifrequency Electron Paramagnetic resonance: Theory and Applications", covering a large number of recently developed main topics in ESR.

With a background in physics, chemsitry, and bio-chemistry the author team combines a strong expertise in developing EPR instrumentation and applying it to condensed matter, proteins, and even for in-vivo studies.