Feste, flüssige oder Dampfphase, reiner Stoff oder Lösung: Die IR-Spektroskopie ist mittlerweile auf Proben aller Art anwendbar, und die Probenmenge darf im Pikogrammbereich liegen. Wie man insbesondere IR- und Raman-Spektren großer Moleküle auswertet und interpretiert, zeigt dieses in seiner Art einmalige Werk, das als Arbeitsanleitung und Nachschlagewerk gleichermaßen geeignet ist. An vielen Beispielen kann der Leser sich in der Interpretation von Spektren üben. Im Anhang findet sich eine ausführliche Bibliographie, ansprechend geordnet nach 14 Spezialgebieten.
Raman and Infrared (IR) spectroscopy supply complementary images of the vibrational spectra of molecules and crystals. IR, in particular, has long been used for the structure elucidation and identification of chemical substances. On the other hand, the enhanced predictive power of the combination of the two spectroscopic modes has until recently been hampered by the difficulty of obtaining satisfactory Raman spectra. The advent of laser technology has changed the situation and has brought Raman spectroscopy within the reach of every synthetic and analytical chemist. This book is the only collection of Raman and IR spectra plotted on the same wavenumber scale for a large number of carefully selected substances. 1044 organic compounds taken from all important classes of organic compounds have been measured under controlled experimental conditions. The spectra are arranged following a classification scheme especially developed for the atlas. An introductory text and several indexes to substance classes and names, molecular formulas, and CAS Registry Numbers add to the value of this unique tool. A first edition of this work was published as a loose-leaf collection in three volumes in the seventies and has long been sold out. The present revision is intended to meet renewed interest in Raman spectroscopy.
This necessary desk reference for every practicing spectroscopist represents the first definitive book written specifically to integrate knowledge about group frequencies in infrared as well as Raman spectra. In the spirit of previous classics developed by Bellamy and others, this volume has expanded its scope and updated its coverage. In addition to detailing characteristic group frequencies of compounds from a comprehensive assortment of categories, the book includes a collection of spectra and a literature search conducted to verify existing correlations and to determine ways to enhance correlations between vibrational frequencies and molecular structure. Particular attention has been given to the correlation between Raman characteristic frequencies and molecular structure. - Constitutes a necessary reference for every practicing vibrational spectroscopist - Provides the new definitive text on characteristic frequencies of organic molecules - Incorporates group frequencies for both infrared and Raman spectra - Details the characteristic IR and Raman frequencies of compounds in more than twenty major categories - Includes an extensive collection of spectra - Compiled by internationally recognized experts
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.
This book is an excellent introduction to vibrational spectroscopy for scientists in academia and industry. Both infrared and Raman spectroscopy are covered comprehensively and up-to-date. Therefore the book may also be used as a handbook for easy reference. Written in the language of chemists, it explains the basic theory and instrumentation, the interpretation and evaluation of spectra. Furthermore numerous, worked-out examples of practical applications are presented. Therefore the reader is enabled to apply infrared and Raman spectroscopy for solving his own problem and to design suitable experimental procedures. This book also serves as a guide to the relevant literature
Quite a few excellent books about vibrational spectroscopy have already been published. So why write a new one? The last years have seen the birth of new techniques and, first of all, a wealth of new applications. Therefore, a lot of new users need an introduction to these techniques and applications, but, if they are new to vibrational spectroscopy, an introduction to the parent techniques as well. Vibrational spectroscopies can detect and analyze vibrations in molecules. Mainly two different forms are used today: Infrared and Raman spectroscopy. Vibrational spectroscopy is used by chemists to characterize their substances. If the spectra of substances are known, analytical chemists can use them to analyze a mixture of chemicals. Samples may be analyzed even with spatial resolution, on the microscopic as well as on the macroscopic scale. "Infrared and Raman Spectroscopy" is intended for researchers or lecturers in Chemistry, Physics, Materials Science and Life Sciences, who are interested in the composition and properties of their samples. It describes how vibrational spectroscopy will enable them to examine thin layers, surfaces and interfaces, and also improve their knowledge about the properties of composites. Special chapters introduce VCD, ROA, and TERS. The book can serve as a short introduction to vibrational spectroscopy too, so that students at the first graduate level will benefit from it as well.
Minimaler Aufwand bei der Probenvorbereitung, hoher Informationsgehalt des Spektrums und die Möglichkeit, mit festen Proben zu arbeiten, machen die Raman-Spektroskopie zunehmend attraktiv. Wie man diese Methode mit modernster Ausrüstung effizient anwendet, zeigt Ihnen das vorliegende Buch. Im Mittelpunkt stehen neue Entwicklungen wie CCDs, Diodenlaser und Fourier-Transform-Techniken. Behandelt werden auch quantitative Analysen, die in der bisher vorhandenen Literatur häufig zu kurz kamen. (08/00)
Auf dieses Nachschlagewerk wird niemand verzichten wollen, der routinemäßig IR-Spektroskopie betreibt! In die 3. Auflage wurden Moleküle und Verbindungen aufgenommen, deren Daten erst seit kurzem verfügbar sind. Erstmals finden Sie auch Raman-Daten. Erweitert wurden vor allem die Kapitel zu Makromolekülen (Polymeren und Biomolekülen), zu anorganischen Verbindungen und zum NIR. Alle Diagramme wurden neu gezeichnet. (11/00)
This work covers principles of Raman theory, analysis, instrumentation, and measurement, specifying up-to-the-minute benefits of Raman spectroscopy in a variety of industrial and academic fields, and how to cultivate growth in new disciplines. It contains case studies that illustrate current techniques in data extraction and analysis, as well as over 500 drawings and photographs that clarify and reinforce critical text material. The authors discuss Raman spectra of gases; Raman spectroscopy applied to crystals, applications to gemology, in vivo Raman spectroscopy, applications in forensic science, and collectivity of vibrational modes, among many other topics.
