Chemical Analysis. Francis Rouessac
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Название: Chemical Analysis
Автор: Francis Rouessac
Издательство: John Wiley & Sons Limited
Жанр: Химия
isbn: 9781119701347
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It may seem like a challenge to present over 20 methods, with exercises (and their answers), in about 500 pages. That is why the authors have chosen to limit themselves to the presentation of the tools, rather than describing everything those tools can do. Only the methods have a universal character. Applications have thus been selected for purposes of illustration only. The final chapter of this book deals with basic statistical considerations.
This book originates from the lectures and laboratory work offered to IUT (technical college) students in Le Mans. This new edition has been updated and enhanced with respect to the previous ones. The third and fifth editions of this publication were translated into English under the title Chemical Analysis, Modern Instrumentation Methods and Techniques, John Wiley & Sons Ltd. (Chichester, 2002 and 2007). The fifth edition was translated into Spanish. Its title is Anàlisis Quimico. Methodos y Técnicas Instrumentales Modernas, McGraw‐Hill Interamericana de Espana, S.A.U (2003). The sixth edition was translated into Korean (Dunod, 2009).
We would like to thank Daniel Cruché, Professor Emeritus, who collaborated in the proofreading of certain chapters and helped in writing some sections in this new edition. We would also like to thank all the French and foreign companies we contacted, who always kindly answered our requests to provide practical information. Their help was precious, since the field of analytical instrumentation is constantly integrating technological advances from a great variety of areas.
Lastly, we also thank our editorial team at Dunod Editions, with whom it was a pleasure to work, and more specifically, Laetitia Hérin, who launched this new edition, and Johan Dillar for his work on the production of this book.
The authors also express their gratitude to the late Professor Guy Ourisson, former President of the French Academy of Sciences, who followed the evolution of this publication throughout its consecutive editions beginning in 1992. He also gave us the great honour of writing the preface to our earliest editions. Finally, we would like to express our deepest gratitude to the late Professor Férey, member of the French Academy of Sciences and CNRS gold medal winner, for his kind preface to the seventh edition in which he announced the forthcoming arrival of the eighth edition!
Le Mans, February 2019 F. Rouessac & A. Rouessac
Nonexhaustive list of companies which kindly accepted to provide information and documents, some of which are reproduced in this book:
AB‐Sciex, Agilent Technologies, American Gas & Chemical Co., American Stress Technologies, Amptek Inc, Analytik Jena, ATI, Bio‐Rad, Bosch, Bruker, Camag, Chrompack, Desaga, Dionex, Edinburgh Instruments, EG&G Ortec, ETP Scientific Inc., Eurolabo, Foxboro, Graseby‐Electronics, Hamamatsu, Hamilton, Hellma—Analytics, Hitachi, HORIBA‐Jobin‐Yvon, Imaging & Sensing Technology Corp., Inficon, JEOL, Jenway, Kratos Analytical, Leeman Labs., Leybold, Malvern Panalytical, Merck, Metorex, Metrohm, Mettler‐Toledo, Microsensor Technology, Ocean Optics, Oriel, Ortec, Oxford Instruments, Perkin‐Elmer, PE‐Sciex, Pharmacia‐Biotech, Philips, Photovac, Pike Technologies, Rheodyne, Rigaku, RTI, Safas SA, ScienTec, Servomex, Shimadzu, Siemens, Specac, Starna Scientific Ltd., Supelco, Tekmar, Teledyne Technologies, Thermo Fisher Scientific, Thermo Jarrell Ash, Torion Technologies, Tosohaas, VG Instruments, Vidac, Waters, Wilmad‐LabGlass, Wyatt Technology.
About the companion website
This book is accompanied by a companion website.
www.wiley.com/go/Rouessac/Analysis3e
This website includes:
Figures of the book
Introduction
Analytical chemistry is a close cousin to physical chemistry. It relates to the study of the chemical and physical behaviour of pure compounds or compounds in solution subject to various conditions.
It is often viewed solely in its applied aspect, with the purpose of identifying, characterizing, and quantifying chemical substances as well as developing the methods necessary for this analysis. This reductive aspect of analytical chemistry is none other than chemical analysis, which is the subject of this book.
Any study of chemical analysis involves addressing varied fields of knowledge. To reach the desired goal, it calls on many concepts, including some that range very far away from chemistry, in the usual sense of the word. It is a multidisciplinary science whose repercussions are felt in all experimental sciences.
In chemical analysis, it is common to distinguish between two categories of methods. Firstly, there are chemical methods, based on a specific reaction of the analyte (the compound being assayed) with reagents, and then there are physical techniques, which make use of the physico‐chemical properties of analytes.
This second category of methods, now in the forefront, has replaced the traditional ‘wet’ methods, which are very limited in their performance but which were at the origin of the field of analytical chemistry. Most of this book is therefore dedicated to modern techniques, which have been greatly developed over these past few decades with the rise of miniaturized sensors, digitization, and computing power. These improvements have thus enabled the use of very efficient mathematical tools and less bulky equipment. As an example, we can compare the imposing Raman spectrophotometers from the 1960s with the portable Raman spectrometers that are now used for quality control in numerous fields.
And so was born instrumental analysis with its incredible arsenal of processes and devices which we now often find installed outside of traditional analytical laboratories.
The evolution of technologies has led to the creation of very efficient instruments that open up new possibilities. This is especially true with the introduction of coupled methods, nondestructive testing, and the concept of speciation (distinction between the various structures in which an element may be present in the sample). These methods use small samples that require little or no preparation prior to measurement. Current analytical trends also include an increase in miniaturized, portable instruments, as well as specific or automatic analysers.
In general, the basic principle consists in measuring a physical value, followed by establishing a simple relationship between this measurement – the device’s response – and the composition of the analyte in the test sample. The search for this relationship often consists in a mathematical linearization between the device’s response and the analyte concentration. This relationship may be simple and direct (the response is proportional to concentration), or it may be more complex.
Whatever the tool used to establish the relationship between the signal and the concentration, we also have to determine the limits of quantification. Below that limit, any attempt at quantification is bound to fail, while above it the relationship no longer applies.
To conduct these studies, analysts must not only be trained in the various techniques, but they must also know the basic concepts of chemistry, particularly since a compound can often be assayed by various methods. Choosing a good method, and if possible the best method, requires knowing many parameters. Therefore, when a new analytical objective has been defined, the problem must be addressed methodically. We must first choose the right СКАЧАТЬ