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Library | Materyal Türü | Barkod | Yer Numarası | Durum |
|---|---|---|---|---|
Searching... Pamukkale Merkez Kütüphanesi | Kitap | 0039421 | QD75.22A53 2004 | Searching... Unknown |
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Özet
Özet
Why settle for less when you can have the whole of Analytical Chemistry in a single book?
The successful all-in-one guide to modern Analytical Chemistry is now available in a new and updated edition. From the foundations of analytical science to state-of-the art techniques and instrumentation -- all you will ever need to know is explained here. The text covers both general analytical chemistry and instrumental analysis and may be used for most analytical chemistry courses offered today.
Carefully chosen worked examples show how analytical problems can effectively be solved and how calculations should be performed. Study questions and recommended reading for further study are provided for each learning unit.
The second edition has been carefully revised to keep up-to-date with advances in the technology of analytical methods in the laboratory and in the workplace, including newly written chapters on multidimensional chromatography, sensors and screening systems.
With its broad scope, the text doubles as a reliable reference for virtually all analytical problems encountered during the course of study and beyond.
"Analytical Chemistry will serve as an excellent text as well as a valued reference following completion of the student's course of study."
Journal of Medicinal Chemistry
"It is a book that should be on the shelves of all analytical chemistry and biochemistry professionals, including those who work in the areas of clinical chemistry, food chemistry and forensic chemistry."
Bulletin of the World Health Organisation
"The book is a must-have reference for anyone trying to understand what techniques and technologies are available for the analytical chemist today."
Chemtech
Author Notes
Jean-Michel Mermet is Research Director at the National Center for Scientific Research (CNRS). In 1985, he was appointed Director of the Laboratory of Analytical Sciences at the University of Lyon. His research interests have been focused on spectrochemistry of plasmas and lasers from fundamental, analytical and instrumental aspects. He has published more than 200 papers, reviews and book chapters.
Matthias Otto is Professor of Analytical Chemistry at the TU Bergakademie Freiberg in Germany. He was born in Dresden (Germany) and did all his studies at the University of Leipzig. In 1984 he moved to Freiberg (Germany) as a reader and was appointed full Professor there in 1987. Since that time he has taught almost all aspects of Analytical Chemistry mainly within the curricula of chemistry, applied sciences and geoecology and organizes courses in basic and advanced chemometrics.
Miguel Valc�rcel is Professor of Analytical Chemistry at the University of C�rdoba (Spain) since 1976, member of the Spanish Royal Academy of Sciences and currently chairman of the Analytical Division of the Federation of European Chemical Societies (DAC-FECS). He is author or co-author of 630 research papers and six monographs in the frame of automation, simplification and quality of (bio)chemical measurement processes.
Reviews (1)
Choice Review
With 1,181 pages, 36 chapters, and a 10-part appendix, this impressive work written by 29 contributors implies that it is "the whole of Analytical Chemistry in a single book." It is not. Word limitations defy content description. Perhaps most relevant is the authors' goal of providing an "integrated platform for the teaching of Analytical Chemistry in Europe in the 21st century." It evolves from the previous edition (1998), based on the "Eurocurriculum" for analytical chemistry. This second edition further responds to the Bologna Declaration--which will demand "profound changes in the teaching-learning system in many European countries." At best, it expertly covers a dazzling array of topics in the analytical sciences. In addition to covering spectroscopic and chromatographic methods, chapters are devoted to topics such as signal processing, automation, and miniaturization. In some chapters, examples of data and methods are lacking, and illustrations are of variable quality throughout. Some topics are covered several times--not unexpected, given the large number of authors. If one has only one analytical chemistry book, this would be an excellent choice. However, for US colleges and universities, it is impractical. ^BSumming Up: Recommended. Upper-division undergraduates through professionals. J. Allison College of New Jersey
Table of Contents
| Foreword |
| Contributors |
| Preface to the Second Edition |
| Preface to the First Edition |
| Part 1 Introduction to Analytical Chemistry |
| 1 Analytical Chemistry as a (Bio)chemical Discipline |
| 2 Key References in Analytical Sciences |
| 3 Analytical Features |
| 4 The Analytical Process |
| 5 The Analytical Problem |
| 6 Analytical Quality Management |
| Part 2 Basic Statistics and Chemometrics |
| 7 Basic Statistics |
| 8 Advanced Chemometrics |
| 8.1 Calibration |
| 8.2 Signal Processing |
| 8.3 Optimizatio and Experimental Design |
| 8.4 Pattern Recognition and Classification |
| 8.5 Multivariate Modeling |
| 8.6 Computer Hard- and Software and Interfacing Analytical Instruments |
| Part 3 Methods Based On Chemical Reactions |
| 9 Introduction to Chemical Equilibria |
| 10 Acid-Base Equilibria and Titrations |
| 11 Complexes in Analytical Chemistry - Complexometric Titrations |
| 12 Redox Equilibria and Titrations |
| 13 Precipitation Methods and Thermoanalysis |
| 13.1 Precipitation Methods |
| 13.2 Thermal Analysis |
| 14 Liquid-Liquid Systems |
| 15 Liquid-Solid Equlibria |
| 16 Gas-Liquid and Gas-Solid Systems |
| 17 Kinetics and Catalysis |
| Part 4 Separation Methods |
| 18 Electroanalysis |
| Part 5 Separation Methods |
| 19 Introduction to Separation Methods |
| 20 Sample Preparation |
| 21 Chromatography |
| 22 Electrophoresis |
| 23 Field-Flow Fractionation |
| Part 6 Atomic and Molecular Spectroscopy |
| 24 Elemental Analysis |
| 24.1 Introduction |
| 24.2 Atomic Emission Spectrometry |
| 24.3 Atomic Absorption Spectrometry |
| 24.4 X-ray Fluorescence Spectrometry |
| 24.5 Activation Analysis |
| 24.6 Inorganic Mass Spectrometry |
| 25 Compound and Molecule Specific Analysis |
| 25.1 UV-VIS Spectrometry, Emission and Luminiscence |
| 25.2 Infrared and Raman Spectrometry |
| 25.3 Nuclear Magnetic Resonace (NMR) Spectrometry |
| 25.4 Organic Mass Spectrometry |
| 26 Coupling of Chromatographic and Spectroscopic Techniques |
| Part 7 Surface and Structural Analysis |
| 27 Surface and Interface Analysis |
| 28 Structural Analysis |
| Part 8 Automation, Miniaturization and Simplification of Analytical Processes |
| 29 Introduction |
| 30 Laboratory Automation |
| 31 Flow Injection Analysis |
| 32 Miniaturized Analytical Systems |
| 33 Chemical Sensors |
| 34 Biosensors |
| 35 Screening Systems |
| 36 Process Analytical Chemistry |
| Appendix |
| Index |