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Books > Science & Mathematics > Chemistry > Analytical chemistry > Qualitative analytical chemistry > Chemical spectroscopy, spectrochemistry
Stereoselective Synthesis Robert S. Atkinson University of Leicester, Leicester. UK Stereoselective Synthesis considers the methods available for the synthesis of simple target molecules, the majority containing not more than two chiral centres, as single stereoisomers. This volume focuses on the factors which give rise to the stereoselectivity and classifies stereoselective reactions accordingly. This classification, and the extensive use of 3-D representations, enables the student to understand the stereochemistry of these reactions and hence apply them to the synthesis of previously unseen target molecules as single stereoisomers. Stereoselective Synthesis presents:
This volume provides a comprehensive survey of current techniques for the use of mass spectrometry in organic chemical and biochemical analysis. Every aspect of modern instrumentation and technique is discussed. The new edition retains the effective division of material applied in the author’s previous volume—theory, practical requirements and applications. However, it has been thoroughly revised and extended to include all recent advances in mass spectrometry, and is complete with extensive references. This is essentially a book for the practising mass spectroscopist which will appeal to both biochemists and organic chemists. Some familiarity with basic principles is assumed but the author has employed a style which makes this volume suitable for beginners and more advanced students alike. The present volume will be particularly valuable to anyone who wishes to evaluate and compare alternative techniques. Main Contents—Instrumentation; Sample Introduction; Chemical lonization (lon-Molecule Reactions); Negative lon Chemical lonization; The lonization of Labile Materials (Part I); The lonization of Labile Materials (Part II); Tandem Mass Spectrometry (The Dissociation of lons); Quantitative Analysis.
Volume 3 looks at classes of biomolecules including carbohydrates,
nucleic acids, and lipids. In addition, special areas of
application are included, such as pharmaceuticals, natural
products, isotope ratio methods for biomolecules analysis, and
clinical applications. The articles are arranged under general
headings for continuity and ease of access, although several of
these are of interest across the various disciplines. The articles
are intended to teach and therefore strive to cover basics and
sufficient additional detail to bring the reader up-to-date on a
given subject. Some advanced topics are also covered, either in a
special section of articles or in additional reading citations.
Antimony, arsenic, bismuth, germanium, lead, selenium, tellurium and tin just some of the elements which, in trace amounts, have biological, environmental and technological importance. Hydride Generation Atomic Absorption Spectrometry describes one of the most accurate analytical techniques for trace analysis of these elements, sensitive to picogram levels. Over the last decade, significant instrumental and methodological progress has led to HG-AAS being widely applied to an extensive range of sample types. In this first comprehensive monograph on HG-AAS, the authors treat both theoretical and experimental aspects of the subject in a critical and in-depth manner. Hydride Generation Atomic Absorption Spectrometry is divided into two parts, with the theoretical background and experimental approach covered in Part I. Part II discusses the methodology and analytical applications to a wide range of fields, arranged in an easy to use element-by-element format. Over 1500 references provide an exhaustive coverage of the vast literature on HG-AAS, making Hydride Generation Atomic Absorption Spectrometry the premier reference source on this important technique. Hydride Generation Atomic Absorption Spectrometry will be an invaluable reference work for all analysts using hydride generation for AAS or for other spectrometric methods. It will also be of great interest to researchers and students working in atomic spectrometry and trace analysis.
Counterterrorist Detection Techniques of Explosives, Second Edition covers the most current techniques available for explosive detection. This completely revised volume describes the most updated research findings that will be used in the next generation of explosives detection technologies. New editors Drs. Avi Cagan and Jimmie Oxley have assembled in one volume a series of detection technologies written by an expert group of scientists. The book helps researchers to compare the advantages and disadvantages of all available methods in detecting explosives and, in effect, allows them to choose the correct instrumental screening technology according to the nature of the sample.
Nuclear magnetic resonance (NMR) is an analytical tool used by chemists and physicists to study the structure and dynamics of molecules. In recent years, no other technique has grown to such importance as NMR spectroscopy. It is used in all branches of science where precise structural determination is required and where the nature of interactions and reactions in solution is being studied.
In this book, the main principles of gravitation mass spectroscopy are discussed. The possibilities of this method to investigate the long-range order in liquids, synthetic and natural polymers of organic and inorganic nature are shown. Special attention is paid to the analysis of chemical and physical processes as well as to information fields of cluster ensembles and their interaction in the distance (e.g. gravitational radiation signals with super light velocity, new communication channel with ETIs, a first contact with our nearest extraterrestrial civilisation on the planet Uranus, interception in the ETIs in real time). A forced formation of a new molecular matter as clusters in stationary waves of white and colour noises of vacuum was established. The application of the method in chemistry, physics, botany, zoology, medicine, material research, applied informatics, astrophysics, mineralogy and even astrology has been suggested. The book is recommended for a broad readership that are interested in nature sciences like chemists, physicists, biologists, doctors, students, engineers and technicians.
This book, now in its second edition, introduces readers to quantum rings as a special class of modern high-tech material structures at the nanoscale. It deals, in particular, with their formation by means of molecular beam epitaxy and droplet epitaxy of semiconductors, and their topology-driven electronic, optical and magnetic properties. A highly complex theoretical model is developed to adequately represent the specific features of quantum rings. The results presented here are intended to facilitate the development of low-cost high-performance electronic, spintronic, optoelectronic and information processing devices based on quantum rings. This second edition includes both new and significantly revised chapters. It provides extensive information on recent advances in the physics of quantum rings related to the spin-orbit interaction and spin dynamics (spin interference in Rashba rings, tunable exciton topology on type II InAs/GaAsSb quantum nanostructures), the electron-phonon interaction in ring-like structures, quantum interference manifestations in novel materials (graphene nanoribbons, MoS2), and the effects of electrical field and THz radiation on the optical properties of quantum rings. The new edition also shares insights into the properties of various novel architectures, including coupled quantum ring-quantum dot chains and concentric quantum rings, topologic states of light in self-assembled ring-like cavities, and optical and plasmon m.odes in Moebius-shaped resonators.
For the research scientist without formal training in optics and spectroscopy, learning how to make multichannel spectroscopic measurements can be a toilsome, piecemeal affair, requiring extensive reading in original literature and specialized works outside his or her area of expertise. To add to the difficulties, such an undertaking, without proper guidance, invariably leads to countless hours wasted puzzling through a maze of unnecessary mathematics and technical dead ends. Thus, the enterprising analytical chemist or research scientist is often daunted in his or her efforts to learn how to choose and develop the right tools for the job, only to fall back on "leaving it up to the experts." Now, Multielement Detection Systems for Spectrochemical Analysis makes it possible for readers to rapidly develop the knowledge and skills they need to select, use, and tailor appropriate instrumentation for their spectroscopic analyses. One way it achieves those aims is through its unique, step-by-step format. Offering clear, concise explanations, it begins with basic concepts and principles, such as diffraction, interference, and multiplexing, and advances to more complex considerations in optics, transform techniques, solid-state physics, television technology, electron optics, and array-detector technology. And just as importantly, while other works in the field cover either fundamental principles or instrumentation, Multielement Detection Systems for Spectrochemical Analysis offers a balanced, unified treatment of both. It is both an excellent introduction to spectrographic fundamentals, and a comprehensive guide to image detection technology. Requiring only an undergraduate familiarity withelectronics and the principles of atomic absorption and emission spectrochemical instrumental analysis, this in-depth introduction and comprehensive guide follows a consistently clear, succinct style. Throughout, the level of mathematical complexity is kept to a minimum. Multielement Detection Systems for Spectrochemical Analysis is an essential tool for analytical chemists, as well as physicists, engineers, and anyone engaged in research in which optical spectroscopy is used.
This book provides a comprehensive overview of the fascinating recent developments in atomic- and nanoscale magnetism, including the physics of individual magnetic adatoms and single spins, the synthesis of molecular magnets for spintronic applications, and the magnetic properties of small clusters as well as non-collinear spin textures, such as spin spirals and magnetic skyrmions in ultrathin films and nanostructures. Starting from the level of atomic-scale magnetic interactions, the book addresses the emergence of many-body states in quantum magnetism and complex spin states resulting from the competition of such interactions, both experimentally and theoretically. It also introduces novel microscopic and spectroscopic techniques to reveal the exciting physics of magnetic adatom arrays and nanostructures at ultimate spatial and temporal resolution and demonstrates their applications using various insightful examples. The book is intended for researchers and graduate students interested in recent developments of one of the most fascinating fields of condensed matter physics.
This open access book is a must-read for students of and beginners in soil science. In a well-organized and easy-to-follow manner, it provides basic outlines of soil minerals, new methods and recent developments in the field, with a special focus on visual aids. The chapters on primary minerals, secondary minerals, non-crystalline inorganic constituents and inorganic constituents sensitive to varying redox conditions will help readers understand the basic components of soils. Further, readers are introduced to new analytical methods with the aid of microscopy and recent developments in the field. Uniquely, the book features case studies on the identification and isolation methods for vivianite crystals from paddy field soils, as well as a useful procedure for identifying noncrystalline constituents such as volcanic glasses and plant opals, which can also be applied to other soils depending on the local conditions. Given its focus and coverage, the book will be useful to all readers who are interested in agronomy, plant production science, agricultural chemistry and environmental science. In addition, it can help biogeochemists further expand their research work on the rhizosphere of wetland plant roots, iron and phosphate dynamics, etc.
A new edition of this practical approach to sampling, experimentation, and applications in the field of inductively coupled plasma spectrometry The second edition of Practical Inductively Coupled Plasma Spectrometry discusses many of the significant developments in the field which have expanded inductively coupled plasma (ICP) spectrometry from a useful optical emission spectroscopic technique for trace element analysis into a source for both atomic emission spectrometry and mass spectrometry, capable of detecting elements at sub-ppb (ng mL-1) levels with good accuracy and precision. Comprising nine chapters, this new edition has been fully revised and up-dated in each chapter. It contains information on everything you need to practically know about the different types of instrumentation as well as pre- and post-experimental aspects. Designed to be easily accessible, with a 'start-to-finish' approach, each chapter outlines the key practical aspects of a specific aspect of the topic. The author, a noted expert in the field, details specific applications of the techniques presented, including uses in environmental, food and industrial analysis. This edition: Emphasizes the importance of health and safety; Provides advanced information on sample preparation techniques; Presents an updated chapter on inductively coupled plasma mass spectrometry; Features a new chapter on current and future development in ICP technology and one on practical trouble shooting and routine maintenance. Practical Inductively Coupled Plasma Spectrometry offers a practical guide that can be used for undergraduate and graduate students in the broad discipline of analytical chemistry, which includes biomedical science, environmental science, food science and forensic science, in both distance and open learning situations. It also provides an excellent reference for those in postgraduate training in these fields.
Beginning with a review of the important areas of mathematics, this book then covers many of the underlying theoretical and practical aspects of NMR and MRI spectroscopy from a maths point of view. Competence in algebra and introductory calculus is needed but all other maths concepts are covered. It will bridge a gap between high level and introductory titles used in NMR or MRI spectroscopy. Uniquely, it takes a very careful and pedagogical approach to the mathematics behind NMR and MRI. It leaves out very few steps, which distinguishes it from other books in the field. The author is an NMR laboratory manager and is sympathetic to the frustrations of trying to understand where some of the fundamental equations come from hence his desire to either explicitly derive all equations for the reader or direct them to derivations. This is an essential text aimed at graduate students who are beginning their careers in NMR or MRI spectroscopy and laboratory managers if they need an understanding of the theoretical foundations of the technique.
An essential reference for optical sensor system design This is the first text to present an integrated view of the optical and mathematical analysis tools necessary to understand computational optical system design. It presents the foundations of computational optical sensor design with a focus entirely on digital imaging and spectroscopy. It systematically covers: Coded aperture and tomographic imaging Sampling and transformations in optical systems, including wavelets and generalized sampling techniques essential to digital system analysis Geometric, wave, and statistical models of optical fields The basic function of modern optical detectors and focal plane arrays Practical strategies for coherence measurement in imaging system design The sampling theory of digital imaging and spectroscopy for both conventional and emerging compressive and generalized measurement strategies Measurement code design Linear and nonlinear signal estimation The book concludes with a review of numerous design strategies in spectroscopy and imaging and clearly outlines the benefits and limits of each approach, including coded aperture and imaging spectroscopy, resonant and filter-based systems, and integrated design strategies to improve image resolution, depth of field, and field of view. Optical Imaging and Spectroscopy is an indispensable textbook for advanced undergraduate and graduate courses in optical sensor design. In addition to its direct applicability to optical system design, unique perspectives on computational sensor design presented in the text will be of interest for sensor designers in radio and millimeter wave, X-ray, and acoustic systems.
This book presents a balance of theoretical considerations and practical problem solving of electrochemical impedance spectroscopy. This book incorporates the results of the last two decades of research on the theories and applications of impedance spectroscopy, including more detailed reviews of the impedance methods applications in industrial colloids, biomedical sensors and devices, and supercapacitive polymeric films. The book covers all of the topics needed to help readers quickly grasp how to apply their knowledge of impedance spectroscopy methods to their own research problems. It also helps the reader identify whether impedance spectroscopy may be an appropriate method for their particular research problem. This includes understanding how to correctly make impedance measurements, interpret the results, compare results with expected previously published results form similar chemical systems, and use correct mathematical formulas to verify the accuracy of the data. Unique features of the book include theoretical considerations for dealing with modeling, equivalent circuits, and equations in the complex domain, review of impedance instrumentation, best measurement methods for particular systems and alerts to potential sources of errors, equations and circuit diagrams for the most widely used impedance models and applications, figures depicting impedance spectra of typical materials and devices, extensive references to the scientific literature for more information on particular topics and current research, and a review of related techniques and impedance spectroscopy modifications.
" Cluster Materials" is the fourth volume of the highly successful
series " Advances in Metal and Semiconductor Clusters." In this
volume the focus is on the properties of clusters which determine
their potential applications as new materials. Metal and
semiconductor clusters have been proposed as precursors for
materials or as actual materials since the earliest days of cluster
research. In the last few years, a variety of techniques have made
it possible to produce clusters in sizes varying from a few atoms
up to several thousand atoms. While some measurements are performed
in the gas phase on non-isolated clusters, many cluster materials
can now be isolated in macroscopic quantities and more convenient
studies of their properties become possible.
A collection of infrared and Raman spectra of 500 natural and synthetic polymers of industrial importance is presented in this book. A large variety of compounds are included, starting with linear polyolefins and finishing with complex biopolymers and related compounds. The spectra were registered using Infrared Fourier Transform Spectrometers in the laboratory of the All-Russia Institute of Forensic Sciences. The IR and Raman spectra are presented together on the same sheet. The accompanying data include general and structure formulae, CAS register numbers, and sample preparation conditions. Features of this book: Continues the long tradition of publishing specific and standard data of new chemical compounds. For low-molecular weight substances, complementary IR and Raman spectra are featured on the same sample and printed on the same page. This "fingerprint" data allows the substance of the sample to be identified without doubt. An important feature of this unique collection of data is the increase in the identification precision of unknown substances. Peak tables are available in digital (ASCII) format, on a diskette delivered with the book. This allows the user to search for unknowns. All the spectra in the collection are base-line corrected. This book will be of interest to scientists involved in the synthesis of new polymeric materials, polymer identification, and quality control. Libraries of scientific institutes, research centers, and universities involved in vibrational spectroscopy will also find this collection invaluable."
In addition to the essential theoretical background and fundamental principles, this unique reference presents a detailed, step-by-step methodology for interpreting even electron mass spectrometry results. Specific chapters are devoted to: proteomics; biomolecule spectral interpretation of small molecules; biomolecule spectral interpretation of biological macromolecules; and MALDI-TOF-Postsource Decay (PSD). Chapters feature detailed examples, questions, and problems to help readers solidify their understanding of the concepts and techniques.
Updated and expanded, the classic guide to GC/MS helps chromatographers quickly learn to use this technique for analyzing and identifying compounds. After explaining the fundamentals, it discusses optimizing, tuning, using, and maintaining GC/MS equipment; explores advances in miniaturized and field-portable GC/MS systems and microfluidic components; and more. Complete with a CD-ROM, it covers applications in the environmental laboratory and in forensics, toxicology, and space science. This is the premier resource for professionals in those fields and for students.
Recent advances in the pharmaceutical sciences and biotechnology have facilitated the production, design, formulation and use of various types of pharmaceuticals and biopharmaceuticals. This book provides detailed information on the background, basic principles, and components of techniques used for the analysis of pharmaceuticals and biopharmaceuticals. Focusing on those analytical techniques that are most frequently used for pharmaceuticals, it classifies them into three major sections and 19 chapters, each of which discusses a respective technique in detail. Chiefly intended for graduate students in the pharmaceutical sciences, the book will familiarize them with the components, working principles and practical applications of these indispensable analytical techniques.
Annual Reports on NMR Spectroscopy, Volume 103, the latest release in a series that has established itself as a premier resource for both specialists and non-specialists interested in new techniques and applications pertaining to NMR spectroscopy includes a variety of updated chapters covering Recent Applications of 17O Solid State NMR in Biochemistry, NMR Studies of Ferromagnetic Materials, Very Fast MAS Solid State NMR Studies of Pharmaceuticals, Recent Advances in Benchtop NMR and Applications, Ultra-Fast Magic Angle Spinning Nuclear Magnetic Resonance.
The first advanced textbook to provide a useful introduction in a brief, coherent and comprehensive way, with a focus on the fundamentals. After having read this book, students will be prepared to understand any of the many multi-authored books available in this field that discuss a particular aspect in more detail, and should also benefit from any of the textbooks in photochemistry or spectroscopy that concentrate on a particular mechanism. Based on a successful and well-proven lecture course given by one of the authors for many years, the book is clearly structured into four sections: electronic structure of organic semiconductors, charged and excited states in organic semiconductors, electronic and optical properties of organic semiconductors, and fundamentals of organic semiconductor devices.
The critically acclaimed laboratory standard for more than forty
years, Methods in Enzymology is one of the most highly respected
publications in the field of biochemistry. Since 1955, each volume
has been eagerly awaited, frequently consulted, and praised by
researchers and reviewers alike. More than 260 volumes have been
published (all of them still in print) and much of the material is
relevant even today--truly an essential publication for researchers
in all fields of life sciences.
The material for this book arose from the author's research into porcelains over many years, as a collector in appreciation of their artistic beauty , as an analytical chemist in the scientific interrogation of their body paste, enamel pigments and glaze compositions, and as a ceramic historian in the assessment of their manufactory foundations and their correlation with available documentation relating to their recipes and formulations. A discussion of the role of analysis in the framework of a holistic assessment of artworks and specifically the composition of porcelain, namely hard paste, soft paste, phosphatic, bone china and magnesian, is followed by its growth from its beginnings in China to its importation into Europe in the 16th Century. A survey of European porcelain manufactories in the 17th and 18th Centuries is followed by a description of the raw materials, minerals and recipes for porcelain manufacture and details of the chemistry of the high temperature firing processes involved therein. The historical backgrounds to several important European factories are considered, highlighting the imperfections in the written record that have been perpetuated through the ages. The analytical chemical information derived from the interrogation of specimens, from fragments, shards or perfect finished items, is reviewed and operational protocols established for the identification of a factory output from the data presented. Several case studies are examined in detail across several porcelain manufactories to indicate the role adopted by modern analytical science, with information provided at the quantitative elemental oxide and qualitative molecular spectroscopic levels, where applicable. The attribution of a specimen to a particular factory is either supported thereby or in some cases a potential reassessment of an earlier attribution is indicated. Overall, the information provided by analytical chemical data is seen to be extremely useful for porcelain identification and for its potential attribution in the context of a holistic forensic evaluation of hitherto unknown porcelain exemplars of questionable factory origins.
"Cavity Ring-Down Spectroscopy: Techniques and Applications" provides a practical overview of this valuable analytical tool, explaining the fundamental concepts and experimental methods, and illustrating important applications. Designed as both an introductory text and a reference source, this book is relevant for scientists unfamiliar with CRDS who are interested in using the technique in their research, as well as experienced users. |
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