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Tandem Mass Spectrometry Edited by F. W. McLafferty More than 50 contributors, representing 32 of the world's leading research groups in mass spectrometry, examine the fundamentals, methods, instrumentation and applications of MS/MS, as well as promising new directions. The book describes the general types of MS/MS applications, primarily trace analysis in complex mixture, molecular structure elucidation, and gaseous ion reaction mechanisms; basic methods and theory, including the production and dissociation of characteristic ions; the principal types of instruments employed; special techniques; and applications of MS/MS in numerous fields. 506 pp. (0 471-86597-4) 1983 Molecular Luminescence Spectroscopy Methods and Applications, Part One Edited by Stephen G. Schulman Providing encyclopedic coverage, the author examines the applications of fluorescence, phosphorescence, and chemiluminescence spectra to the analysis of organic and inorganic compounds. The book features discussions of topics never presented in an analytical text, such as excited state optical activity and bioinorganic luminescence spectroscopy, and exhaustive reviews of fluorescence and phosphorescence of pharmaceuticals. Chapters on fluorescence detection in chromatography and luminescence immunoassay are the most up-to-date treatments available on these subjects. 826 pp. (0 471-86848-5) 1985 Auger Electron Spectroscopy M. Thompson, M. Baker, A. Christie, and J. Tyson After comparing AES with other techniques in the general field of electron spectroscopy, this book reviews the fundamentals and theories underlying the AES effect. The authors-experienced users of AES-offer an easy-to-follow summary of procedures along with generic descriptions of equipment components. The book also deals with a sequence of studies of gas phase spectra from rare gases to metals to molecules. Chemical aspects of the methods are discussed, followed by a particularly comprehensive description of AES with reference t
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The book starts with a detailed description of ICP-MS, including quadruple-based, sector-based and time-of-flight instruments. Instrumentation from existing manufacturers is described and compared to show their similarities and differences. Also, a review of the ICP-MS literature is carried out to outline both the strengths and limitations of the technique, whatever its brand, as well as what it can currently accomplish in terms of applications. Then, the book demonstrates how these limitations can be reduced and/or eliminated by combining various techniques with ICP-MS. Great detail is provided on each technique so that the reader can get a good understanding of it before carrying on to the instrumental requirements for its hyphenation to ICP-MS, and the resulting impact on the operation of the hyphenated instrument. Since this book is concerned with the ICP side only, which is fairly similar in all the instruments from the different manufacturers, the information should be useful to all ICP-MS users. The features and limitations of each technique are thoroughly discussed and illustrated with a review of the ICP-MS literature. Approaches which could be used but have not yet been tried with ICP-MS are also suggested. This is particularly true of flow injection techniques which are extremely flexible and have been used extensively in atomic spectroscopy and spectrophotometry. Many of the features of the technique have not yet been combined to ICP-MS, and one purpose of the book will be to point out potentially beneficial combinations.
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This practical guide shows how to efficiently use the method for a variety of applications. Numerous examples as well as ideas for problem solving and troubleshooting are presented. The new edition is updated with the latest developments in methods and applications.
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Inductively coupled plasma atomic emission spectrometry. --- Coupled plasma atomic emission spectrometry, Inductively --- ICP-AES (Spectrum analysis) --- ICPAES (Spectrum analysis) --- Inductively coupled plasma atomic emission spectroscopy --- Inductively coupled plasma emission spectroscopy --- Plasma atomic emission spectrometry, Inductively coupled --- Atomic emission spectroscopy --- Inductively coupled plasma spectrometry
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Inductively coupled plasma atomic or mass spectrometry is one of the most common technique for elemental analysis. Samples to be analyzed are usually in the form of solutions and need to be introduced into the plasma by means of a sample introduction system, so as to obtain a mist of very fine droplets. Because the sample introduction system can be a limiting factor in the analytical performance, it is crucial to optimize its design and its use. It is the purpose of this book to provide fundamental knowledge along with practical use to obtain the best of the technique.- Fundamental as
Sample introduction (Chemistry) --- Inductively coupled plasma mass spectrometry. --- Inductively coupled plasma atomic emission spectrometry. --- Coupled plasma atomic emission spectrometry, Inductively --- ICP-AES (Spectrum analysis) --- ICPAES (Spectrum analysis) --- Inductively coupled plasma atomic emission spectroscopy --- Inductively coupled plasma emission spectroscopy --- Plasma atomic emission spectrometry, Inductively coupled --- Atomic emission spectroscopy --- Inductively coupled plasma spectrometry --- Coupled plasma mass spectrometry, Inductively --- ICP-MS (Spectrum analysis) --- ICPMS (Spectrum analysis) --- Plasma mass spectrometry, Inductively coupled --- Mass spectrometry --- Application of chemical samples --- Introduction of chemical samples --- Presentation of chemical samples --- Sample application (Chemistry) --- Sample presentation (Chemistry) --- Chemistry, Analytic --- Technique --- Analytical chemistry
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Spectrometric and optical chemical analysis --- fysicochemie --- Spectrométrie --- Spectrometry --- Matériel de laboratoire --- Laboratory equipment --- methods --- Échantillonnage --- Sampling --- Spectrométrie de masse --- Mass spectrometry --- Inductively coupled plasma atomic emission spectrometry. --- Plasma --- Spectrometrie ea
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Physicochemistry --- fysicochemie --- Inductively coupled plasma atomic emission spectrometry --- Tables --- Spectroscopie d'émission atomique à plasma induit par haute fréquence --- ICP --- SPECTRA --- TABLES --- ATOMS --- Monograph --- Spectrum analysis. --- Tables. --- Atoms. --- Chemistry, Physical and theoretical --- Matter --- Stereochemistry --- Furniture --- Analysis, Spectrum --- Spectra --- Spectrochemical analysis --- Spectrochemistry --- Spectroscopy --- Chemistry, Analytic --- Interferometry --- Optics --- Radiation --- Wave-motion, Theory of --- Absorption spectra --- Light --- Spectroscope --- Constitution --- Qualitative --- Spectrometry --- Inductively coupled plasma atomic emission spectrometry - Tables
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The direct determination of elements in solid samples by atomspectrometric methods without prior digestion is in many cases more efficient and reliable, faster, easier, more cost-effective and less time-consuming than other methods. In this first book on the topic the authors describe concisely all instrumental and methodological features, including calibration, influences from the matrix or sample inhomogeneities, optimisation, data analysis and measurement uncertainty. Special chapters deal with ET-AAS, slurry injection, ETV-ICP-AE/MS coupling. The authors' aim to deliver all their experience in a way that enables the spectroscopist to develop their own solid sampling based methods makes this book an unvaluable source for AAS- and AES-practitioners.
Furnace atomic absorption spectroscopy. --- Sample introduction (Chemistry) --- Solids --- Basic Sciences. Chemistry --- Analysis. --- Analytical Chemistry --- Sample introduction (Chemistry). --- Analytical Chemistry. --- Analytical chemistry. --- Analysis, Chemical --- Analytic chemistry --- Chemical analysis --- Chemistry, Analytic --- Chemistry --- Atomic absorption spectrometry --- Atomic emission spectrometry --- Inductively coupled plasma mass spectrometry --- Sampling --- Slurries --- Solid analysis
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Spectrometric and optical chemical analysis --- fysicochemie --- Atomic spectroscopy --- -Chemistry, Analytic --- -Plasma spectroscopy --- -AAS --- analytische chemie --- spectroscopie --- 543.42 --- ICP inductive coupled plasma --- absorptiespectroscopie --- analytische chemie (scheikunde) --- atoomabsorptiespectrometrie --- atoomabsorptiespectroscopie --- atoomemissiespectroscopie --- massaspectroscopie --- plasma spectroscopie --- Plasma (Ionized gases) --- Spectroscopy, Plasma --- Spectrum analysis --- Analysis, Chemical --- Analytical chemistry --- Chemical analysis --- Metallurgical analysis --- Mineralogy, Determinative --- Spectroscopy, Atomic --- Programmed instruction --- Spectra --- Chemistry, Analytic --- Plasma spectroscopy --- Programmed instruction. --- Analytische toepassingen --- Plasmaspectroscopie --- Analytische toepassingen. --- Plasmaspectroscopie. --- AAS --- Analytic chemistry --- Chemistry --- Atomic spectroscopy - Programmed instruction. --- Plasma spectroscopy - Programmed instruction. --- Chemistry, Analytic - Programmed instruction. --- TRACE ELEMENTS --- ATOMIC ABSORPTION SPECTROMETRY --- ATOMIC EMISSION SPECTROMETRY --- MASS SPECTROMETRY --- ANALYSIS
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