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Applications of EPR in Radiation Research is a multi-author contributed volume presented in eight themes: I. Elementary radiation processes (fundamental reaction mechanisms, low temperature radiolysis, quantum solids); II: Solid state radiation chemistry (crystalline, amorphous and heterogeneous systems); III: Biochemistry, biophysics and biology applications (radicals in biomaterials, spin trapping, free-radical-induced DNA damage); IV: Materials science (polymeric and electronic materials, materials for treatment of nuclear waste); V: Radiation metrology (EPR-dosimetry, clinical applications); VI: Geological applications; VII: Advanced techniques (pulsed and optically detected EPR, spatial distributions of radicals, radical ion pairs); VIII: Theoretical tools (density-functional calculations, spectrum simulations).  .

Electron paramagnetic resonance --- Research. --- Electron resonance --- Electron spin resonance --- EPR (Magnetic resonance) --- ESR (Magnetic resonance) --- Paramagnetic resonance, Electron --- Magnetic resonance --- Paramagnetism --- Nuclear chemistry. --- Surfaces (Physics). --- Environmental protection. --- Nucleic acids. --- Cytology. --- Chemistry. --- Nuclear Chemistry. --- Characterization and Evaluation of Materials. --- Effects of Radiation/Radiation Protection. --- Nucleic Acid Chemistry. --- Oxidative Stress. --- Theoretical and Computational Chemistry. --- Environmental quality management --- Protection of environment --- Environmental sciences --- Applied ecology --- Environmental engineering --- Environmental policy --- Environmental quality --- Physics --- Surface chemistry --- Surfaces (Technology) --- Chemistry, Nuclear --- Chemistry, Physical and theoretical --- Cell biology --- Cellular biology --- Biology --- Cells --- Cytologists --- Polynucleotides --- Biomolecules --- Physical sciences --- Materials science. --- Radiation protection. --- Radiation—Safety measures. --- Oxidative stress. --- Chemistry, Physical and theoretical. --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry --- Oxidation-reduction reaction --- Stress (Physiology) --- Radiation monitoring --- Radiation protection --- Material science

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EPR of Free Radicals in Solids: Trends in Methods and Applications, 2nd ed. presents a critical two volume review of the methods and applications of EPR (ESR) for the study of free radical processes and structures in solids. Emphasis is on the progress made in the developments in EPR technology, in the application of sophisticated matrix isolation techniques and in the advancement in quantitative EPR that have occurred since the 1st edition was published. Improvements have been made also at the theoretical level, with the development of methods based on first-principles methods and their application to the calculation of magnetic parameters and to simulation of spectral shapes. Written by international leading experts in the field, EPR of Free Radicals in Solids I focuses on the trends in experimental and theoretical methods to extract structural and dynamical properties of radicals and spin probes in solid matrices by continuous wave (CW) and pulsed techniques. It presents simulation techniques and computer software for CW and pulsed EPR signals, and also studies quantum effects at low temperature. In this edition, the chapters dealing with quantum chemistry methods for the theoretical interpretation of hyperfine coupling tensors and g-tensors have been much extended and a new chapter on the calculation of zero-field splitting tensors has been added. This new edition is a valuable resource to both theoreticians and experimentalists active in research involving free radicals, as well as to students of advanced courses in physical chemistry, chemical physics, materials science, biophysics, biochemistry, and related fields. Written by international leading experts in the field, EPR of Free Radicals in Solids I focuses on the trends in experimental and theoretical methods to extract structural and dynamical properties of radicals and spin probes in solid matrices by continuous wave (CW) and pulsed techniques. It presents simulation techniques and computer software for CW and pulsed EPR signals, and also studies quantum effects at low temperature. In this edition, the chapters dealing with quantum chemistry methods for the theoretical interpretation of hyperfine coupling tensors and g-tensors have been much extended and a new chapter on the calculation of zero-field splitting tensors has been added. This new edition is a valuable resource to both theoreticians and experimentalists active in research involving free radicals, as well as to students of advanced courses in physical chemistry, chemical physics, materials science, biophysics, biochemistry, and related fields.

Electron paramagnetic resonance. --- Free radicals (Chemistry). --- Solid state physics. --- Chemistry --- Physical Sciences & Mathematics --- Physical & Theoretical Chemistry --- Free radicals (Chemistry) --- Electron resonance --- Electron spin resonance --- EPR (Magnetic resonance) --- ESR (Magnetic resonance) --- Paramagnetic resonance, Electron --- Chemistry. --- Physical chemistry. --- Atoms. --- Physics. --- Physical Chemistry. --- Atomic, Molecular, Optical and Plasma Physics. --- Physics --- Solids --- Radicals (Chemistry) --- Free radical reactions --- Magnetic resonance --- Paramagnetism --- Chemistry, Physical organic. --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Matter --- Stereochemistry --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Constitution

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Applications of EPR in Radiation Research is a multi-author contributed volume presented in eight themes: I. Elementary radiation processes (fundamental reaction mechanisms, low temperature radiolysis, quantum solids); II: Solid state radiation chemistry (crystalline, amorphous and heterogeneous systems); III: Biochemistry, biophysics and biology applications (radicals in biomaterials, spin trapping, free-radical-induced DNA damage); IV: Materials science (polymeric and electronic materials, materials for treatment of nuclear waste); V: Radiation metrology (EPR-dosimetry, clinical applications); VI: Geological applications; VII: Advanced techniques (pulsed and optically detected EPR, spatial distributions of radicals, radical ion pairs); VIII: Theoretical tools (density-functional calculations, spectrum simulations).  .

Physics --- Surface chemistry --- Nuclear chemistry --- Organic chemistry --- Chemistry --- Genetics --- Histology. Cytology --- Molecular biology --- Immunology. Immunopathology --- Hygiene. Public health. Protection --- Radiotherapy. Isotope therapy --- Materials sciences --- Environmental protection. Environmental technology --- Computer. Automation --- anti-oxidantia --- RNA (ribonucleic acid) --- vrije radicalen --- nucleïnezuren --- stralingschemie --- klinische chemie --- materiaalkennis --- oppervlakte-onderzoek --- organische chemie --- stralingshygiëne --- farmacologie --- chemie --- informatica --- cytologie --- genetische manipulatie --- DNA (deoxyribonucleic acid) --- polymeren --- moleculaire biologie --- milieubescherming --- immunochemie --- enzymen

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"Principles and Applications of ESR Spectroscopy" fills the gap between the detailed monographs in ESR spectroscopy and the general textbooks in molecular physics, physical chemistry, biochemistry or spectroscopy. The latter only briefly explain the underlying theory and do not provide details about applications, while the currently available ESR textbooks are primarily focused on the technique as such. This text is based upon the authors’ long experience of teaching the subject to a mixed audience, in the extreme case ranging from physics to biology. The potential of the method is illustrated with applications in fields such as molecular science, catalysis and environmental sciences, polymer and materials sciences, bio-chemistry and radiation chemistry/physics, which were selected from the authors’ wide experience. Theoretical derivations have in general been omitted, as they have been presented repeatedly in previous works. The necessary theory is instead illustrated by practical examples from the literature. "Principles and Applications of ESR Spectroscopy" provides the principles of continuous wave and pulsed ESR techniques and illustrates the applications at a level that is accessible to masters and doctoral students as well as to scientists in physical chemistry/chemical physics, catalysis and environmental sciences, polymer science, free radical chemistry in bio-chemistry and medicine, materials science, radiation dosimetry and dating, as well as radiation physics and chemistry.

Chemistry --- Physical Sciences & Mathematics --- Analytical Chemistry --- Electron paramagnetic resonance spectroscopy. --- Electron spin resonance spectroscopy --- EPR spectroscopy --- ESR spectroscopy --- Chemistry. --- Analytical chemistry. --- Physical chemistry. --- Atomic structure. --- Molecular structure. --- Spectra. --- Solid state physics. --- Spectroscopy. --- Microscopy. --- Analytical Chemistry. --- Physical Chemistry. --- Atomic/Molecular Structure and Spectra. --- Solid State Physics. --- Spectroscopy and Microscopy. --- Spectrum analysis --- Analytical biochemistry. --- Chemistry, Physical organic. --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Analytic biochemistry --- Biochemistry --- Chemistry, Analytic --- Bioanalytic chemistry --- Bioanalytical chemistry --- Analytical chemistry --- Atomic structure  . --- Molecular structure . --- Physics --- Solids --- Structure, Molecular --- Chemical structure --- Structural bioinformatics --- Structure, Atomic --- Atomic theory --- Analysis, Microscopic --- Light microscopy --- Micrographic analysis --- Microscope and microscopy --- Microscopic analysis --- Optical microscopy --- Optics --- Analysis, Spectrum --- Spectra --- Spectrochemical analysis --- Spectrochemistry --- Spectrometry --- Spectroscopy --- Interferometry --- Radiation --- Wave-motion, Theory of --- Absorption spectra --- Light --- Spectroscope --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Analysis, Chemical --- Analytic chemistry --- Chemical analysis --- Qualitative --- Electron paramagnetic resonance spectroscopy --- 543.42 --- 543.08 --- 543.08 Analytical measurement --- Analytical measurement --- 543.42 Spectrum analysis. Spectroscopy. Spectrography. Spectrometry. Spectrophotometry. Fluorescence analysis --- Spectrum analysis. Spectroscopy. Spectrography. Spectrometry. Spectrophotometry. Fluorescence analysis --- Chemistry, Physical and theoretical. --- Spectrum analysis.

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Optics. Quantum optics --- Solid state physics --- Physicochemistry --- Chemical structure --- Theoretical spectroscopy. Spectroscopic techniques --- Analytical chemistry --- spectra (chemie) --- moleculaire structuur --- vaste stof --- materie (fysica) --- analytische chemie --- spectroscopie --- microscopie --- fysicochemie