MTU Cork Library Catalogue

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Fourier transform infrared spectrometry / Peter R. Griffiths, James A. de Haseth.

By: Griffiths, Peter R, 1942-.
Contributor(s): De Haseth, James A.
Material type: materialTypeLabelBookSeries: Chemical analysis ; 83.Publisher: New York : Wiley, 1986Description: xv, 656 p. : ill. ; 24 cm.ISBN: 0471099023 .Subject(s): Fourier transform infrared spectroscopyDDC classification: 535.842
Holdings
Item type Current library Call number Copy number Status Date due Barcode Item holds
General Lending MTU Bishopstown Library Store Item 535.842 (Browse shelf(Opens below)) 1 Available 00029728
Total holds: 0

Enhanced descriptions from Syndetics:

An up-to-date introduction to the theory, instrumentation and applications of FT-IR spectrometry, including new and emerging techniques. Designed to allow actual and potential users of the technique to plan their experimental procedures correctly. Easy-to-read, logical presentation makes this sophisticated subject accessible to students as well as chemists and analysts. End of chapters references. Index.

"A Wiley-Interscience publication.".

Includes bibliographical references and index.

Table of contents provided by Syndetics

  • The Michelson Interferometer
  • Sampling the Interferogram
  • Computing Techniques
  • Two-Beam Interferometers
  • Auxiliary Optics for FT-IR Spectrometry
  • Data Systems
  • Signal-to-Noise Ratio
  • Reduction of Dynamic Range in FT-IR Spectrometry
  • Photothermal Fourier Spectrometry
  • Quantitative Analysis
  • Dispersive Fourier Transform Spectrometry
  • FT-IR Spectrometry of Time-Dependent Phenomena
  • FT-IR Studies of Polymers
  • Biochemical and Biomedical Applications
  • Low Temperature Studies
  • Atomic Emission Spectrometry
  • Surface Analysis
  • GC/FT-IR Spectrometry
  • The HPLC/FT-IR Interface
  • Index

Reviews provided by Syndetics

CHOICE Review

This book very effectively weds theory and practice. The physics of interferometry and mathematics of computing techniques are presented to the extent to which they are needed to understand those instrument design features that control performance characteristics, of which signal-to-noise ratio and dynamic range are given separate chapters. The same concern with fundamentals is shown in the coverage of techniques and applications like photothermal spectrometry; quantitative, polymer, and surface analysis; biochemical, biomedical, and low-temperature studies; time-dependent phenomena; and interfacing with gas and liquid chromatographs. This is not a second edition of Griffiths' Chemical Infrared Fourier Transform Spectroscopy (1975); 11 of 18 chapters are entirely new, and more than 80 percent of 634 references are for work done since the earlier book was published. This new, well-written, and profusely illustrated book belongs in every college library; it will be of special value to institutions that do not yet have FTIR instruments, because it provides the information needed to choose the type of equipment appropriate to a given use.-C.W. Beck, Vassar College

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