Multidimensional HPLC of Polymers (Springer Laboratory)

Liquid Crystals Beyond Displays. Controlled Atmosphere Transmission Electron Microscopy. Unimolecular and Supramolecular Electronics II. Handbook of Reference Electrodes. Unimolecular and Supramolecular Electronics I. Engineered Nanopores for Bioanalytical Applications. Noncovalent Functionalization of Carbon Nanotubes. Controlled Polymerization and Polymeric Structures. Nanoscale Photonics and Optoelectronics. Reaction Kinetics and the Development of Catalytic Processes.

Solar to Chemical Energy Conversion. Materials and Processes for Next Generation Lithography.

Multidimensional HPLC of Polymers

Energy Conversion in Natural and Artificial Photosynthesis. Multifrequency Electron Paramagnetic Resonance. Advanced Magnetic and Optical Materials. Spectroscopy of Polymer Nanocomposites. Handbook of Transparent Conductors. Physical Chemistry of Polyelectrolyte Solutions. Atomic Force Microscopy in Liquid.

Combinatorial Methods for Chemical and Biological Sensors. Chemical and Physical Behavior of Human Hair. X-ray and Neutron Techniques for Nanomaterials Characterization. Handbook of Industrial Chemistry and Biotechnology. Scanning Force Microscopy of Polymers. Environmentally compatible polymers green polymers are the key to sustainable developments for our rich and convenient life. In order to develop green polymers, it is essential to understand that nature constructs a variety of materials that can be used.

Plant materials such as cellulose, hemicellulose and lignin are the largest organic resources. Thermal Properties of Green Polymers and Biocomposites is unique in that it introduces thermal analysis applicable to green polymers and provides fundamental thermal properties of cellulose, polysaccharides and lignin. The book includes over figures concerning thermal properties of green polymers with detailed experimental conditions. It also introduces newly patented environmentally compatible green polymers.

Thermal properties provided include: Sample Controlled Thermal Analysis: Finally the expected future development of SCTA is discussed. This book is an invaluable reference for materials scientists, chemists, geologists, and engineers involved in the development of new materials, the manufacturing processes and quality control. It is also useful for research in solid state chemistry, materials science, materials in general, and analytical chemistry.

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Producers of thermoanalytical equipment and manufacturers of catalysts, technological ceramics and adsorbents for industrial or environment applications will find this an important resource. Thermal Analysis Of Plastics: Theory and Practice Ehrenstein, Gabriela Riedel, Pia Trawiel. Thermal Analysis of Plastics provides information on important properties of plastic materials, such as nucleation, crystallization, degree of crystallinity, recrystallization, melting and solidification, glass transition, curing and postcuring, thermal stability, thermal expansion, relaxation of orientation and internal stresses, pvT-data, and others.

Different test methods and their variations are described in detail, emphasizing the principles and their application in practice. Using practical examples, different approaches to problem solving are presented with a focus on the interpretation of experimental results. This just-released book is a must for everyone involved in material and product development, testing, processing, quality assurance, or failure analysis in industry and laboratories. Handbook of Thermal Analysis and Calorimetry Volume 2: Applications to inorganic and miscellaneous materials This is the second volume of a four volume set intended to describe the techniques and applications of thermoanalytical and calorimetric methods.

The general techniques and methodology are covered extensively in Volume 1, along with the fundamental physicochemical background needed. Consequently the subsequent volumes dwell on the applications of these powerful and versatile methods, while assuming a familiarity with the techniques. Volume 2 covers major areas of inorganic materials and some related general topics, e.

The chapters are written by established practitioners in the field with the intent of presenting a sampling of the how thermoanalytical and calorimetric methods have contributed to progress in their respective areas. The chapters are not intended as exhaustive reviews of the topics, but rather, to illustrate to the readers what has been achieved and to encourage them to consider extending these applications further into their domains of interest. Differential Scanning Calorimetry, 2nd Ed. In this updated and fully revised second edition, the authors provide the newcomer and the experienced practitioner with a balanced and comprehensive insight into all important methods and aspects of Differential Scanning Calorimetry DSC , including a sound presentation of the theoretical basis of DSC thermal analysis and temperature-modulated DSC TMDCS.

Emphasis is placed on modern evaluation techniques, instrumentation, the underlying measurement principles, metrologically correct calibrations, factors influencing the measurement process, and on the exact interpretation of the results. The information enables the research scientist, the analyst and experienced laboratory staff to choose the most suitable equipment, to apply DSC methods successfully, to interpret the measurement curve, and thus to measure key properties precisely. In addition, the new edition includes improved instrumental techniques such as Tzerotm and StepScantm, new evaluation techniques, more applications, and the latest references.

The purpose of this book is to give a comprehensive description of the theoretical fundamentals of calorimetry. The considerations are based on the relations deduced from the laws and general equations of heat exchange theory and steering theory. The calorimeter is described as a physical object of well-defined thermal and dynamic parameters. The mathematical models of calorimeters are formulated. A classification of calorimeters is given. The methods of the determination of heat effects and analysis of the course of heat effects in the calorimeters are presented and discussed.

Introduction to Thermal Analysis: Techniques and Applications, 2nd Edition. Thermal Analysis is a well-established set of techniques for obtaining qualitative and quantitative information about the effects of various heat treatments on materials of all kinds, including new chemical compounds, plastics, ceramics, alloys, construction materials, minerals, foods and medicines. Heating is performed under strictly controlled conditions and can reveal changes in structure and other important properties of the material being studied.

Such studies are of great practical importance in the use of materials. This new edition has been thoroughly revised and rewritten to account for the changes that have occurred in the techniques and the instrumentation since the original edition in These changes include the introduction of new modulated temperature techniques and the exciting world of micro thermal analysis, based on novel adaptations of atomic force microscopy. These new techniques are integrated with the older standard techniques.

Multidimensional Hplc Of Polymers Springer Laboratory Hardcover By Harald Pasch

The aim of the original edition has, however, been retained and is to provide a brief, readable introduction to these versatile techniques, for anyone contemplating their use, from which it is possible to move on to the specialist literature. Handbook of Thermal Analysis and Calorimetry Volume 3: Applications to Polymers and Plastics As a new and exciting field of interdisciplinary macromolecular science and engineering, polymeric materials will have a profound presence in 21st century chemical, pharmaceutical, biomedical, manufacturing, infrastructure, electronic, optical and information technologies.

The origin of this field derived from an area of polymer science and engineering encompassing plastic technologies. The field is rapidly expanding to incorporate new interdisciplinary research areas such as biomaterials, macromolecular biology, novel macromolecular structures, environmental macromolecular science and engineering, innovative and nano-fabrications of products, and is translating discoveries into technologies. T his comprehensive book containing essential information on the applicability of thermal analysis techniques to evaluate inorganic and organic materials in construction technology should serve as a useful reference for the scientist, engineer, construction technologist, architect, manufacturer, and user of construction materials, standard-writing bodies, and analytical chemists.

The material scientists at the National Research Council of Canada have established one of the best thermal analysis laboratories in the world. Various types of thermal analysis techniques have been applied successfully to the investigation of inorganic and organic construction materials. These studies have provided important information on the characterization of raw as well as finished materials, quality control, quantitative estimation, interrelationships between physical, chemical, mechanical, and durability characteristics.

Information on the application of thermal analysis to construction materials is dispersed in literature and hence the IRC scientists embarked on producing a handbook, the first of its kind, incorporating the latest knowledge available in this field of activity. Almost all important construction materials have been included. The use of thermal and calorimetric methods has shown rapid growth over the last two decades, in an increasingly wide range of applications.

In addition, a number of powerful new techniques have been developed. This book supplies a concise and readable account of the principles, experimental apparatus and practical procedures used in thermal analysis and calorimetric methods of analysis. Brief accounts of the basic theory are reinforced with detailed applications of the methods and contemporary developments.

Also included is information on standard test methods and manufacturers.

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Written by acknowledged experts, Principles of Thermal Analysis and Calorimetry is up-to-date, wide-ranging and practical. It will be an important source of information for many levels of readership in a variety of areas, from students and lecturers through to industrial and laboratory staff and consultants. Characterisation of Polymers by Thermal Analysis Thermal Analysis TA has become an indispensable family of analytical techniques in the polymer research.

The increased importance of these techniques can be seen as the result of three more or less parallel developments: These areas are still in their developmental stages, especially the third area. The increasing knowledge of the dependence of physical properties on chemical structure just accentuated more and more the need for accurate thermoanalytical measurements, and this knowledge is very important for the first stages of the development of new polymeric systems.

Besides, the contribution of TA remains necessary for the technical and commercial development of such a new polymer system. The use of the various TA techniques in these processes is described in this book in nine chapters, while chapter ten illustrates the information obtained about different polymers during special case studies. TSTP examines the latest dynamic and modulated thermal analytical techniques, including new interpretations and applications of Differential Scanning Calorimetry DSC.

The basis of many DSC methods is the modulation of temperature along with varying other parameters. The mode of modulation, a sinusoidal wave or a saw tooth curve, affords the thermal analyst an opportunity to study a physical or chemical change in greater detail. Fundamentals and Applications to Polymer Science, 2nd Ed. This new edition includes a much enlarged section on MDSC, in which the instrument is described and a critical appraisal of the technique presented.

This very practical book is a must for people who use thermal analysis techniques in their everyday work. Handbook of Thermal Analysis and Calorimetry Volume 4: From Macromolecules to Man The applications and interest in thermal analysis and calorimetry have grown enormously during the last half of the 20th century. These techniques have become indispensable in the study of processes such as catalysis, hazards evaluation etc. Consequently, thermal analysis and calorimetry have grown in stature and more scientists and engineers have become at least part-time, practitioners.

People new to the field therefore need a source of information describing the basic principles and current state of the art. The last volume of this 4 volume handbook, devoted to many aspects of biological thermal analysis and calorimetry, completes a comprehensive review of this important area. All chapters have been prepared by recognized experts in their respective fields. The approach taken is "how and what to do and when to do it". The complete work is a valuable addition to the already existing literature.

Handbook of Thermal Analysis and Calorimetry Volume 1: Principles and Practice Volume 1 describes the basic background information common to thermal analysis and calorimetry in general. Thermodynamic and kinetic principles are discussed along with the instrumentation and methodology associated with thermoanalytical and calorimetric techniques. The purpose is to collect the discussion of these general principles and minimize redundancies in the subsequent volumes that are concerned with the applications of these principles and methods.

More unique methods, which pertain to specific processes or materials, are covered in later volumes. Handbook of Thermal Analysis T. Handbook of Thermal Analysis Edited by T. Hatakeyama National Institute of Materials and Chemical Research, Ibaraki, Japan Zhenhai Liu Changchun Institute of Applied Chemistry, China This page reference book covers a comprehensive description of the principles of thermal analysis TA instruments, operating conditions, and the nature of the experimental data.

Presented in a compact and well-arranged style with a large number of figures and illustrations, this work is divided into two parts. Part I is designed to acquaint and orient newcomers with TA by providing a comprehensive introduction to the basic principles of instrument operation, with advice on sample preparation and optimization of operating conditions, and a guide to interpreting results. Part II illustrates TA curves covering metals, inorganic and organic minerals, polymers, construction materials, pharmaceuticals, explosives, etc.

The appendices include a glossary of TA terms, a survey of reference materials, the current table of TA standards, and a TA database. This book is aimed at advanced users and specialists who utilize TA methods for practical purposes, especially in research laboratories both academic and industrial. With an emphasis on practical instruction, industrial research staff, undergraduates and postgraduate students in the relevant fields will find this work a useful introduction to principle TA techniques.

Presents samples of organic substances characterized under identical conditions by thermogravimetry TG and differential thermal analysis DTA in addition to proximate analysis-providing accurate information essential in research and engineering applications related to fuel preparation. Discusses nonisothermal kinetic techniques, mathematical models, and other parameter estimation procedures that facilitate the extrapolation of results obtained under various conditions-including the Gaur and Reed method, an important advance in understanding the kinetics of thermal data.

Turi, continues the tradition of the widely acclaimed original work, providing a comprehensive and fully current reviewof the literature and techniques of thermal analysis of polymers. The two-volume set provides an in-depth overview of thermal analysis by focusing on instrumentation and a wide array of applications in research, development, production, quality control and technical service. Readers will benefit greatly from the well-coordinated and clearly written chapters, which are replete with practical examples. Chapters are written by world-renowned authors and include important, previously unpublished experimentaldata.

Fully revised and updated, this Second Edition has grown from to approximately pages, reflecting the explosive development of the field during the past fifteen years. This comprehensive two-volume set is an invaluable reference source for chemists, engineers, physicists, and other professionals involved in research, development, production, applications, characterization, and evaluation of polymers.

This exceptional book reveals the results of twelve years of extensive thermoanalytical investigations into petroleum and its products with the aid of tables, diagrams and references. Firstly, the methods employed in obtaining thermoanalytic data, in particular thermogravimetry, differential thermal analysis and differential scanning calorimetry, are presented, and the underpinning theory described.

Next, the data obtained from model substances, i. Research into petroleum and its products using these methods is outlined. The reactions central to various refinery processes, tertiary oil recovery, lubricant stability testing and oil shale retorting, to name but a few examples, are investigated as are relevant pyrolysis and oxidation reactions. Finally, readers are brought up-to-date with recent developments in instrumentation, are recommended hardware and software and are provided with a list of suppliers.

Scientists, engineers and technicians working on research, product characterization, process development or quality control in the oil recovery, oil refining, petrochemical, lubricant and asphalt industries will find the advice and information in this book to be of great value. Thermal Analysis of Materials Discussing the design and optimum use of thermal analysis instrumentation for materials' property measurement, this work details how the instruments work, what they measure, potential pitfalls and the fitting of experimental results to theoretical models.

It presents a tutorial on writing computer programs for data manipulation, advanced thermoanalytical methods and case studies. Techniques and Applications Thermal Characterization of Polymeric Materials, 1st Ed. Modern Magnetic Resonance, Volumes 06 Knovel. Provides a unique and comprehensive resource on up-to-date uses and applications of magnetic resonance techniques in the sciences, including chemistry, biology, materials, food, medicine, pharmaceuticals and marine sciences.

Simplified Theory, Applications and Examples for Organic Chemistry and Structural Biology provides a fresh, practical guide to NMR for both students and practitioners, in a clearly written and non-mathematical format. It gives the reader an intermediate level theoretical basis for understanding laboratory applications, developing concepts gradually within the context of examples and useful experiments.

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Fundamentals and Methods This unique, self-contained resource is the first volume on electron paramagnetic resonance EPR spectroscopy in the eMagRes Handbook series. The 27 chapters cover the theoretical principles, the common experimental techniques, and many important application areas of modern EPR spectroscopy. Fundamentals and Methods is presented in four major parts: Basic Techniques and Instrumentation, C: High-Resolution Pulse Techniques, and D: The first part of the book gives the reader an introduction to basic continuous-wave CW EPR and an overview of the different magnetic interactions that can be determined by EPR spectroscopy, their associated theoretical description, and their information content.

Parts C and D builds on parts A and B and offer introductory accounts of a wide range of modern advanced EPR techniques, with examples of applications. Electron Spin Resonance in Food Science. Ash utosh Shukla Editor. Electron Spin Resonance in Food Science covers, in detail, the ESR identification of the irradiation history of food products and beverages to investigate changes that occur during storage, with an aim of improving hygienic quality and extending shelf-life with minimal tempering in nutritional profile.

The book also includes ESR studies on the interaction of food items and packaging materials, along with a section on new approaches in ESR identification of irradiated foods that is followed by a chapter on international legislation relevant to irradiated food. This volume covers research methods centered on the use of Electron Paramagnetic Resonance EPR techniques to study biological structure and function. Multifrequency Electron Paramagnetic Resonance: Data and Techniques 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.

It is complemented by the first full compilation of hyperfine splittings and g-factors for aminoxyl nitroxide radicals since by Larry Berliner, a world expert on spin labeling, helping to identify and interpret substances and processes by means of EPR techniques. Applications of EPR in Radiation Research is a multi-author contributed volume presented in eight themes: 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: Theoretical tools density-functional calculations, spectrum simulations.

Pulse Dipolar Electron Spin Resonance: Distance Measurements by Peter P. Shelke and Snorri Th. Magnetic Resonance and Its Applications The book is devoted to the description of the fundamentals in the area of magnetic resonance. The book covers two domains: Radiospectroscopy comprises nuclear magnetic resonance , electron paramagnetic resonance, nuclear quadrupolar resonance, and some other phenomena. The radiospectroscopic methods are widely used for obtaining the information on internal nano, micro and macro structure of objects. Quantum radioelectronics, which was developed on the basis of radiospectroscopic methods, deals with processes in quantum amplifiers, generators and magnetometers.

We do not know analogues of the book presented. The book implies a few levels of the general consideration of phenomena, that can be useful for different groups of readers students, PhD students, scientists from other scientific branches: This book provides a multidisciplinary overview to the application of high order derivative spectrophotometry and Electron Spin Resonance ESR spectroscopy in biology and ecology. Furthermore the authors give an extended overview to the spectroscopic and spectro-photometric analysis of specific biological materials.

This volume is a well condensed description of an analytical method and a clear review to its application in biology and related fields and an essential tool for researchers who are new in the field of spectroscopic methods and their applications in the life sciences. A nders Lund, Masaru Shiotani Editor s. Trends in Methods and Applications, 2nd ed. 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 theoretical level, with the development of methods based on first principles and their application to the calculation of magnetic properties as well as in spectral simulations. 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 software for CW and pulsed EPR as well as studies of quantum effects at low temperature.

The chapters dealing with quantum chemistry methods for the theoretical interpretation of hyperfine coupling tensors and g-tensors have been much extended in this edition and a new chapter on the calculation of zero-field splitting tensors has been added. This new edition is a valuable resource to experimentalists and theoreticians in research involving free radicals, as well as for students of advanced courses in physical chemistry, chemical physics, materials science, biophysics, biochemistry and related fields.

EPR of Free Radicals in Solids II focuses on the trends in applications of 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 in nine chapters written by experts in the field. It examines the studies involving radiation- and photo-induced inorganic and organic radicals in inert matrices, the high-spin molecules and metal-based molecular clusters as well as the radical pro-cesses in photosynthesis.

Recent advancements in environmental applications in-cluding measurements by myon resonance of radicals on surfaces and by quantitative EPR in dosimetry are outlined and the applications of optical detection in material research with much increased sensitivity reviewed.

Harald Pasch

The potential use of EPR in quantum computing is considered in a newly written chapter. This new edition is aimed to experimentalists and theoreticians in research involving free radicals, as well as for students of advanced courses in physical chemis-try, chemical physics, materials science, biophysics, biochemistry and related fields. Encyclopedia of Radicals in Chemistry, Biology and Materials 2. Chryssostomos Chatgilialoglu and Armido Stude r Editors.

H ighlighting the growing applications of free radicals in key chemical, biological and medical processes Over the last two decades the application of free radicals in organic synthesis, materials science and life science has steadily increased, this Encyclopedia presents methodologies and mechanisms involving free radicals of chemical and biological research, including applications in materials science and medicine. The aim of this Encyclopedia is to offer for the first time a description of free radicals within an interdisciplinary and multidisciplinary context, connecting structural characteristics and chemical properties to their applications in different areas of chemistry and related disciplines.

It covers not only basic concepts and chemical synthesis, but also touches on various aspects concerning the role of free radicals in materials and life sciences. The reader will find a balanced contribution of topics related to free radicals covering for example, their role in proteomics, genomics and lipidomics as well as their enormous potential in synthesis and technology.

Basic Principles, the Different Techniques and Applications The book divided in to two parts. In the first part of this book, the historical development, the basic principles and some photo-physical process of fluorescence spectroscopy, the various biological applications of this instruments were presented. In second part, the historical development of EPR, a typical atomic system that exhibit paramagnetic system, the basic principles and applications of this instrument in biological and chemical systems were reviewed.

Theory and applications Filling the gap for a systematic, authoritative, and up-to-date review of this cutting-edge technique, this book covers both low and high frequency EPR, emphasizing the importance of adopting the multifrequency approach to study paramagnetic systems in full detail by using the EPR method. In so doing, it discusses not only the underlying theory and applications, but also all recent advances -- with a final section devoted to future perspectives. 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 is the first comprehensive yet practical guide for people who perform quantitative EPR measurements. No existing book provides this level of practical guidance to ensure the successful use of EPR. There is a growing need in both industrial and academic research to provide meaningful and accurate quantitative EPR results.

This text discusses the various sample, instrument and software related aspects required for EPR quantitation. 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.

This authoritative reference seamlessly covers all important bioEPR applications, including low-spin and high-spin metalloproteins, spin traps and spin lables, interaction between active sites, and redox systems. The book also comes with an unprecedented set of supporting software designed with simple graphical user interfaces that allow readers to tackle problems they will likely encounter when engaged in spectral analysis. Analysis and Interpretation Rieger Philip H. Electron Spin Resonance covers the obtaining, analysing and interpreting of cw X-band ESR spectra of molecules with unpaired electron s.

The purpose of the book is to describe in mathematical terms the extraction of useful information from ESR spectra about the interaction of unpaired electrons with atoms in the molecules being studied. A reader familiar with quantum mechanics should gain a thorough understanding of the origins of the phenomena which make ESR spectra possible.

The information that can be obtained from the spectra are explained in detail and in a logical step-by-step fashion. Examples of spectra of organic, inorganic and organometallic molecules, both in solution and in frozen solution are shown, analysed and interpreted and the mathematical basis of this interpretation clearly presented. The examples start with straightforward cases and proceed to more complicated ones. The ESR of biradicals, triplet states and other systems with more than one unpaired electron is also addressed. Particular attention is paid to the analysis and interpretation of spectra obtained from frozen solutions of paramagnetic organometallic compounds in which the g-matrix and the molecular axes are non-coincident.

This book lays a firm groundwork for understanding more sophisticated experiments, which the availability of newer commercial instruments have made possible. Elementary Theory and Practical Applications, 2nd Ed. This book provides an introduction to the underlying theory, fundamentals, and applications of EPR spectroscopy, as well as new developments in the area. Knowledge of the topics presented will allow the reader to interpret of a wide range of EPR spectra, as well as help them to apply EPR techniques to problem solving in a wide range of areas: Includes updated information on high frequency and multi-frequency EPR, pulsed microwave techniques and spectra analysis, dynamic effects, relaxation phenomena, computer-based spectra simulation, biomedical aspects of EPR, and more.

Schlick Shulamit Editor Wiley. A definitive work on ESR and polymer science by today's leading authorities. The past twenty years have seen extraordinary advances in electron spin resonance ESR techniques, particularly as they apply to polymeric materials. With contributions from over a dozen of the world's top polymer scientists, Advanced ESR Methods in Polymer Research is the first book to bring together all the current trends in this exciting field into one comprehensive reference.

Theory and Applications This is the first book to present the necessary quantum chemical methods for both resonance types in one handy volume, emphasizing the crucial interrelation between NMR and EPR parameters from a computational and theoretical point of view. Here, readers are given a broad overview of all the pertinent topics, such as basic theory, methodic considerations, benchmark results and applications for both spectroscopy methods in such fields as biochemistry, bioinorganic chemistry as well as with different substance classes, including fullerenes, zeolites and transition metal compounds.

The chapters have been written by leading experts in a given area, but with a wider audience in mind. The result is the standard reference on the topic, serving as a guide to the best computational methods for any given problem, and is thus an indispensable tool for scientists using quantum chemical calculations of NMR and EPR parameters. A must-have for all chemists, physicists, biologists and materials scientists who wish to augment their research by quantum chemical calculations of magnetic resonance data, but who are not necessarily specialists in these methods or their applications.

Furthermore, specialists in one of the subdomains of this wide field will be grateful to find here an overview of what lies beyond their own area of focus. Electron spin resonance spectroscopy is the method used to determine the structure and life expectancy of a number of radicals. Written by Fabian Gerson and Walter Huber, top experts in the field of electron spin resonance spectroscopy, this book offers a compact yet readily comprehensible introduction to the modern world of ESR.

Thanks to its comprehensive coverage, ranging from fundamental theory right up to the treatment of all important classes of organic radicals and triplet-state molecules that can be analyzed using ESR spectroscopy, this unique book is suitable for users in both research and industry. Instead of using complex mathematical derivations, the authors present a readily understandable approach to the field by interpreting sample spectra and classifying experimental data. Principles of Pulse Electron Paramagnetic Resonance Pulse EPR electron paramagnetic resonance is one of the newest and most widely used techniques for examining the structure, function and dynamics of biological systems and synthetic materials.

Until now, however, there has been no single text dedicated to this growing area of research. This text addresses the need for a comprehensive overview of Pulse EPR. Polyelectrolytes and Nanoparticles Joachim Koetz. Back cover copy This book presents the principle ideas of combining different analytical techniques in multi-dimensional analysis schemes. Table of contents Introduction.

Review Text From the reviews: It addresses a full range of LC techniques with emphasis on interaction chromatography, multidimensional techniques and powerful, selective detectors. The authors are leading experts in this area as is reflected in the very clear content with plenty of useful experimental examples. This book is a helpful resource in polymer laboratories, for material and physical chemistry researcher as well as for students working in analytical sciences.

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