In virtually all types of experiments in which a response is analyzed as a function of frequency (e. g. , a spectrum), transform techniques can significantly improve data acquisition and/or data reduct ion. Research-level nuclear magnet ic resonance and infra-red spectra are already obtained almost exclusively by Fourier transform methods, because Fourier transform NMR and IR spectrometers have been commercially available since the late 1960·s. Similar transform techniques are equally valuable (but less well-known) for a wide range of other chemical applications for which commercial instruments are only now becoming available: for example, the first corrmercial Fourier transform mass spectrometer was introduced this year (1981) by Nicolet Instrument Corporation. The purpose of this volume is to acquaint practicing chemists with the basis, advantages, and applica of Fourier, Hadamard, and Hilbert transforms in chemistry. For tions almost all chapters, the author is the investigator who was the first to apply such methods in that field. The basis and advantages of transform techniques are described in Chapter 1. Many of these aspects were understood and first applied by infrared astronomers in the 1950·s, in order to improve the otherwise unacceptably poor signal-to-noise ratio of their spec tra. However, the computations required to reduce the data were painfully slow, and required a 1 arge computer.
Author(s): Alan G. Marshall (auth.), Alan G. Marshall (eds.)
Edition: 1
Publisher: Springer US
Year: 1982
Language: English
Pages: 562
Tags: Analytical Chemistry
Front Matter....Pages i-xii
Advantages of Transform Methods in Chemistry....Pages 1-43
Hadamard and Other Discrete Transforms in Spectroscopy....Pages 45-67
Processing Software for Fourier Transform Spectroscopies....Pages 69-97
Dispersion versus Absorption (DISPA): Hilbert Transforms in Spectral Line Shape Analysis....Pages 99-123
Fourier Transform Ion Cyclotron Resonance Spectroscopy....Pages 125-146
Fourier Transform Nuclear Quadrupole Resonance Spectroscopy....Pages 147-182
Fourier Transform Dielectric Spectroscopy....Pages 183-206
Pulsed Fourier Transform Microwave Spectroscopy....Pages 207-270
Two-Dimensional Fourier Transform NMR Spectroscopy....Pages 271-305
Endor Spectroscopy by Fourier Transformation of the Electron Spin Echo Envelope....Pages 307-322
Advances in FT-NMR Methodology for Paramagnetic Solutions: Detection of Quadrupolar Nuclei in Complex Free Radicals and Biological Samples....Pages 323-344
Fourier Transform μSR....Pages 345-385
Fourier Transform Infrared Spectrometry....Pages 387-420
Aspects of Fourier Transform Visible/UV Spectroscopy....Pages 421-452
Fourier Transform Faradaic Admittance Measurements (FT-FAM): A Description and Some Applications....Pages 453-525
Optical Diffraction by Electrodes: Use of Fourier Transforms in Spectroelectrochemistry....Pages 527-547
Back Matter....Pages 549-562