Principles and Applications of Electron Paramagnetic Spectroscopy
(Sprache: Englisch)
Offers a pragmatic guide to navigating through the complex maze of EPR/ESR spectroscopy concepts, techniques, and applications. De mystifies the basic fundamentals and presents clear approaches in given specific application areas.
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Produktinformationen zu „Principles and Applications of Electron Paramagnetic Spectroscopy “
Offers a pragmatic guide to navigating through the complex maze of EPR/ESR spectroscopy concepts, techniques, and applications. De mystifies the basic fundamentals and presents clear approaches in given specific application areas.
Klappentext zu „Principles and Applications of Electron Paramagnetic Spectroscopy “
This book offers a pragmatic guide to navigating through the complex maze of EPR/ESR spectroscopy fundamentals, techniques, and applications. Written for the scientist who is new to EPR spectroscopy, the editors have prepared a volume that de mystifies the basic fundamentals without weighting readers down with detailed physics and mathematics, and then presents clear approaches in specific application areas. The first part presents basic fundamentals and advantages of electron paramagnetic resonance spectrscopy. The second part explores severalapplication areas including chemistry, biology, medicine, materials and geology. A frequently asked questions sections focuses on practicalquestions, such as the size of sample, etc. It s an ideal, hands on reference for chemists and researchers in the pharmaceutical and materials (semiconductor) industries who are looking for a basic introduction to EPR spectroscopy.
Easy-to-follow guide helps you take full advantage of EPR spectroscopy's capabilities
Electron Paramagnetic Resonance: A Practitioner's Toolkit serves as a practical guide that enables you to navigate through and make sense of the complex maze of electron paramagnetic resonance (EPR) spectroscopy fundamentals, techniques, and applications. The first half of this book is dedicated to explaining the core principles of EPR spectroscopy, using clear, easy-to-follow explanations and examples while avoiding complex physics and mathematics. The second half of the book focuses on applications, including problem-solving strategies for such fields as biology, medicine, material science, chemistry, physics, and radiation effects on matter.
Carefully edited by two experienced EPR scientists, this book features a team of eighteen expert authors. Their contributions are based not only on a thorough examination and analysis of the primary literature, but also on their own firsthand experience in research and applications. As a result, the book is filled with practical advice, tips, and cautions addressing such issues as:
- Choosing the right experiment
- Selecting experimental parameters and sample size
- Avoiding setbacks and pitfalls
- Simulating the spectra
With its straightforward explanations and clear examples, this book is just what researchers need to take full advantage of EPR spectroscopy's tremendous capabilities. It is particularly recommended for those interested in applications to chemistry, biology, medicine, and material science.
Electron Paramagnetic Resonance: A Practitioner's Toolkit serves as a practical guide that enables you to navigate through and make sense of the complex maze of electron paramagnetic resonance (EPR) spectroscopy fundamentals, techniques, and applications. The first half of this book is dedicated to explaining the core principles of EPR spectroscopy, using clear, easy-to-follow explanations and examples while avoiding complex physics and mathematics. The second half of the book focuses on applications, including problem-solving strategies for such fields as biology, medicine, material science, chemistry, physics, and radiation effects on matter.
Carefully edited by two experienced EPR scientists, this book features a team of eighteen expert authors. Their contributions are based not only on a thorough examination and analysis of the primary literature, but also on their own firsthand experience in research and applications. As a result, the book is filled with practical advice, tips, and cautions addressing such issues as:
- Choosing the right experiment
- Selecting experimental parameters and sample size
- Avoiding setbacks and pitfalls
- Simulating the spectra
With its straightforward explanations and clear examples, this book is just what researchers need to take full advantage of EPR spectroscopy's tremendous capabilities. It is particularly recommended for those interested in applications to chemistry, biology, medicine, and material science.
Inhaltsverzeichnis zu „Principles and Applications of Electron Paramagnetic Spectroscopy “
Foreword.Preface.
Contributors.
PART I: Principles.
Chapter 1: Introduction to Electron Paramagnetic Resonance (Carlo Corvaja).
1.1 Chapter Summary.
1.2 EPR Spectrum: What Is It?
1.3 The Electron Spin.
1.4 Electron Spin in a Magnetic Field (Zeeman Effect).
1.5 Effects of Electromagnetic Fields.
1.6 Macroscopic Collection of Electron Spins.
1.7 Observation of Magnetic Resonance.
1.8 Electron Spin in Atoms or Molecules.
1.9 Macroscopic Magnetization.
1.10 Spin Relaxation and Bloch Equations.
1.11 Nuclear Spins.
1.12 Anisotropy of the Hyperfine Interaction.
1.13 ENDOR.
1.14 Two Interacting Electron Spins.
1.15 Quantum Machinery.
1.16 Electron Spin in a Static Magnetic Field.
1.17 Electron Spin Coupled to a Nuclear Spin.
1.18 Electron Spin in a Zeeman Magnetic Field in the Presence of a Microwave Field.
Chapter 2: Basic Experimental Methods in Continuous Wave Electron Paramagnetic Resonance (Peter Höfer).
2.1 Instrumental Components of a Continuous Electron Paramagnetic Resonance (CW-EPR) Spectrometer.
2.2 Experimental Techniques.
Chapter 3: What can be studied with Electron Paramagnetic Resonance? (Marina Brustolon).
3.1 Introduction.
3.2 Organic Radicals.
3.3 Organic Molecules with More than One Unpaired Electron.
3.4 Inorganic Radicals, Small Paramagnetic Molecules, and Isolated Atoms.
3.5 Transition Metal Ions.
3.6 Natural Systems and Processes.
3.7 Tailoring and assembling Paramagnetic Species for Magnetic Materials.
3.8 Industrial Applications of EPR.
Chapter 4: Electron Paramagnetic Resonance Spectroscopy in the Liquid Phase (Georg Gescheidt).
4.1 General Considerations.
4.2 Generation of Radicals and Radical Ions.
4.3 Basic
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Interactions and Principles.
4.4 Patterns and Line Shapes of Fluid-Solution EPR Spectra.
4.5 Transition Metal Ions.
4.6 Biradicals.
4.7 Simulation Software.
4.8 How Fluid Solution Spectra are Analyzed.
4.9 Calculation of EPR Parameters.
4.10 Molecular Properties Mirrored by EPR Spectra in Fluid Solution.
4.11 Chemically Induced Dynamic Electron Polarization (CIDEP) and CID Nuclear Polarization (CIDNP): Methods to Study Short-Lived Radicals.
4.12 References.
Chapter 5: Pulsed Electron Paramagnetic Resonance (Michael K. Bowman).
5.1 Introduction.
5.2 Vector Model for Pulsed EPR.
5.3 Pulse Sequences.
5.4. Data Analysis.
5.5. Spectrometer.
Chapter 6: Electron Paramagnetic Resonance Spectra in the Solid State (Marina Bennati and Damien M. Murphy).
6.1 Introduction.
6.2 Anisotropy of the Zeeman interaction: the g tensor.
6.3 The Hyperfine Interaction in the Solid Sstate.
6.4 TMIs.
6.5 EPR Spectra for S > 1/2: the ZFS.
Chapter 7: The Virtual Electron Paramagnetic Resonance Laboratory: A User Guide to ab initio Modeling (Vincenzo Barone and Antonino Polimeno).
7.1. Introduction.
7.2. Modeling tools.
7.3. Tutorial and Case-Studies.
7.4. Conclusions.
PART II: APPLICATIONS.
Chapter 8: Spin Trapping (Angelo Alberti and Dante Macciantelli).
8.1 What Is Spin Trapping and Why Use It.
8.2 Spin Traps.
8.3 Experimental Methods.
8.4 Applications.
8.5 Spin Trapping in the Gas Phase or in Solid State.
8.6
4.4 Patterns and Line Shapes of Fluid-Solution EPR Spectra.
4.5 Transition Metal Ions.
4.6 Biradicals.
4.7 Simulation Software.
4.8 How Fluid Solution Spectra are Analyzed.
4.9 Calculation of EPR Parameters.
4.10 Molecular Properties Mirrored by EPR Spectra in Fluid Solution.
4.11 Chemically Induced Dynamic Electron Polarization (CIDEP) and CID Nuclear Polarization (CIDNP): Methods to Study Short-Lived Radicals.
4.12 References.
Chapter 5: Pulsed Electron Paramagnetic Resonance (Michael K. Bowman).
5.1 Introduction.
5.2 Vector Model for Pulsed EPR.
5.3 Pulse Sequences.
5.4. Data Analysis.
5.5. Spectrometer.
Chapter 6: Electron Paramagnetic Resonance Spectra in the Solid State (Marina Bennati and Damien M. Murphy).
6.1 Introduction.
6.2 Anisotropy of the Zeeman interaction: the g tensor.
6.3 The Hyperfine Interaction in the Solid Sstate.
6.4 TMIs.
6.5 EPR Spectra for S > 1/2: the ZFS.
Chapter 7: The Virtual Electron Paramagnetic Resonance Laboratory: A User Guide to ab initio Modeling (Vincenzo Barone and Antonino Polimeno).
7.1. Introduction.
7.2. Modeling tools.
7.3. Tutorial and Case-Studies.
7.4. Conclusions.
PART II: APPLICATIONS.
Chapter 8: Spin Trapping (Angelo Alberti and Dante Macciantelli).
8.1 What Is Spin Trapping and Why Use It.
8.2 Spin Traps.
8.3 Experimental Methods.
8.4 Applications.
8.5 Spin Trapping in the Gas Phase or in Solid State.
8.6
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Autoren-Porträt von M. R. Brustolon
Marina Brustolon is a full professor in physical chemistry at the Università degli Studi di Padova in Italy.Elio Giamello is a full professor in inorganic chemistry at the Università degli Studi di Torino in Italy.
Bibliographische Angaben
- Autor: M. R. Brustolon
- 2009, 1. Auflage, 560 Seiten, Maße: 23,8 cm, Gebunden, Englisch
- Herausgegeben: Marina Brustolon, Elio Giamello
- Verlag: Wiley & Sons
- ISBN-10: 0470258829
- ISBN-13: 9780470258828
- Erscheinungsdatum: 13.03.2009
Sprache:
Englisch
Rezension zu „Principles and Applications of Electron Paramagnetic Spectroscopy “
"Electron Paramagnetic Resonance: A Practitioner's Toolkit is an excellent reference, especially for newcomers to the field of EPR spectroscopy." (JACS , February 2009)
Pressezitat
Electron Paramagnetic Resonance: A Practitioner s Toolkit is an excellent reference, especially for newcomers to the field of EPR spectroscopy. ( JACS , February 2009)
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