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Completely rewritten, revised, and updated, this Sixth Edition reflects the latest technologies and applications in spectroscopy, mass spectrometry, and chromatography. It illustrates practices and methods specific to each major chemical analytical technique while showcasing innovations and trends currently impacting the field. Many of the chapters have been individually reviewed by teaching professors and include descriptions of the fundamental principles underlying each technique, demonstrations of the instrumentation, and new problem sets and suggested experiments appropriate to the topic. About the authors... JAMES W. ROBINSON is Professor Emeritus of Chemistry, Louisiana State University, Baton Rouge. A Fellow of the Royal Chemical Society, he is the author of over 200 professional papers and book chapters and several books including Atomic Absorption Spectroscopy and Atomic Spectroscopy. He was Executive Editor of Spectroscopy Letters and the Journal of Environmental Science and Health (both titles, Marcel Dekker, Inc.) and the Handbook of Spectroscopy and the Practical Handbook of Spectroscopy (both titles, CRC Press). He received the B.Sc. (1949), Ph.D. (1952), and D.Sc. (1978) degrees from the University of Birmingham, England. EILEEN M. SKELLY FRAME recently was Clinical Assistant Professor and Visiting Research Professor, Rensselaer Polytechnic Institute, Troy, New York. Dr. Skelly Frame has extensive practical experience in the use of instrumental analysis to characterize a wide variety of substances, from biological samples and cosmetics to high temperature superconductors, polymers, metals, and alloys. Her industrial career includes supervisory roles at GE Corporate Research and Development, Stauffer Chemical Corporate R&D, and the Research Triangle Institute. She is a member of the American Chemical Society, the Society for Applied Spectroscopy, and the American Society for Testing and Materials. Dr. Skelly Frame received the B.S. degree in chemistry from Drexel University, Philadelphia, Pennsylvania, and the Ph.D. in analytical chemistry from Louisiana State University, Baton Rouge. GEORGE M. FRAME II is Scientific Director, Chemical Biomonitoring Section of the Wadsworth Laboratory, New York State Department of Health, Albany. He has a wide range of experience in the field and has worked at the GE Corporate R&D Center, Pfizer Central Research, the U.S. Coast Guard R&D Center, the Maine Medical Center, and the USAF Biomedical Sciences Corps. He is an American Chemical Society member. Dr. Frame received the B.A. degree in chemistry from Harvard College, Cambridge, Massachusetts, and the Ph.D. degree in analytical chemistry from Rutgers University, New Brunswick, New Jersey.
Organic Functional Group Analysis: Theory and Development attempts to symbolize the growth in functional groups analysis by using handpicked methods. Those methods are positioned to represent as many functional groups as possible. The book begins with the author referencing books about a quantitative organic analysis. Majority of the first few chapters highlight the oximation and carbonyl method, which support portions of Chapter 2 and the book's second half. The book then discusses the hydroxyl, amino, and alkoxysilanes groups. Chapters 3 and 4 showcase the strong analytical advantages in using base catalysis and acid catalysis with the same anhydride, while Chapters 5, 6, and 7 illustrate extremely useful functional group methods that have received impetus from research. The next chapters talk about the quantitative ring opening method and Diels-Alder addition method. Succeeding studies are about various compounds and its relevant subtopics. The text provides a very great reference for undergraduates and postgraduates of chemistry and its affiliated studies.
Organic Functional Group Analysis deals with versatile and reliable chemical methods for the analysis of most of the more common organic functional groups. The minimum number of methods required to solve the maximum number of problems is presented. The scope and known limitations of each method are discussed so that analytical chemists can decide whether the method under consideration can be applied to their particular problem. The methods are either titrimetric or colorimetric in nature. This volume is comprised of 11 chapters and begins with an overview of the analytical methods used for organic functional groups, including both titrimetric and colorimetric methods. The discussion then turns to the properties of acids and bases; selection of the best acid-base method for a particular purpose; and some of the more useful acid-base methods. Subsequent chapters explore methods for the determination of nitrogen compounds such as amines and amides; carbonyl compounds and derivatives; hydroxyl compounds such as tertiary alcohols; unsaturated compounds; 1,2-epoxy compounds; esters and peroxides; carboxylic acid anhydrides; and sulfur compounds. This book is intended for analytical chemists.
Researchers in chemistry, chemical engineering, pharmaceutical science, forensics, and environmental science make routine use of chemical analysis, but the information these researchers need is often scattered in different sources and difficult to access. The CRC Handbook of Basic Tables for Chemical Analysis: Data-Driven Methods and Interpretation, Fourth Edition is a one-stop reference that presents updated data in a handy format specifically designed for use when reaching a decision point in designing an analysis or interpreting results. This new edition offers expanded coverage of calibration and uncertainty, and continues to include the critical information scientists rely on to perform accurate analysis. Enhancements to the Fourth Edition: Compiles a huge array of useful and important data into a single, convenient source Explanatory text provides context for data and guidelines on applications Coalesces information from several different fields Provides information on the most useful "wet" chemistry methods as well as instrumental techniques, with an expanded discussion of laboratory safety Contains information of historical importance necessary to interpret the literature and understand current methodology. Unmatched in its coverage of the range of information scientists need in the lab, this resource will be referred to again and again by practitioners who need quick, easy access to the data that forms the basis for experimentation and analysis.
Crucial to research in molecular biology, medicine, geology, food science, materials science, and many other fields, analytical instrumentation is used by many scientists and engineers who are not chemists. Undergraduate Instrumental Analysis, Seventh Edition provides users of analytical instrumentation with an understanding of these instruments, c
This textbook describes the theory underlying each instrumental procedure and applications of all instrumental methods. It comprehensively covers the instrumental methods of chemical analysis, chromatography, thermal methods of chemical analysis, electrochemical methods, and instrumental methods of analysis of inorganic compounds. These include thermogravimetric analysis, differential thermal analysis, thermometric titrations, and some miscellaneous thermal methods like derivative thermogravimetric analysis, thermobarography, differential scanning calorimetry, thermomechanical analysis, and electric thermal analysis, flame photometry, fluorimetry and phosphorimetry, nephelometric and turbidimetric techniques, refractory and interferometry, and X-ray methods. Each chapter consists a set of problems to aid self-learning. This textbook is highly useful for graduate and postgraduate students on chemistry and its allied fields. It can also be used as a quick reference material by professionals working in the various fields of chemistry and material science.