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Infrared Spectroscopy in Catalytic Research

  • Chapter
Catalysis

Part of the book series: Catalysis ((CATALYSIS,volume 5))

Abstract

After nearly thirty years of intensive application, infrared spectroscopy remains the most widely used, and usually most effective, spectroscopic method for characterization of the surface chemistry of high-area heterogeneous catalysts and of many other high-area solids of major commercial importance. Starting from the work of Terenin and other Russian scientists in the 1940’s and early 1950’s [1] and important pioneering work by Eischens and coworkers [2, 3] in the 1950’s on supported metal catalysts, the use of infrared spectroscopy in surface studies generally, and in catalytic research particularly, has grown rapidly. Hundreds of articles, reviews [3–11], and three books [12–14] presently attest to its popularity. Infrared spectroscopy [5] and closely related vibrational spectroscopies of other kinds [15–17] have also played, and continue to play, a very important role in research on the surface chemistry of low-area solids of many kinds.

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  1. Research and Development Department, Amoco Research Center, Amoco Oil Company, P.O. Box 400, Naperville, Illinois, 60566, USA

    J. B. Peri

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  1. CSIRO Division of Materials Science, Catalysis and Surface Science Laboratory, University of Melbourne, Victoria, Australia

    John R. Anderson

  2. Dept. of Chemical Engineering, Stanford University, Stanford, CA, 94305, USA

    Michel Boudart

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Peri, J.B. (1984). Infrared Spectroscopy in Catalytic Research. In: Anderson, J.R., Boudart, M. (eds) Catalysis. Catalysis, vol 5. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-93247-2_3

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