Optical techniques to characterize polymer systems
Author(s)
Bibliographic Information
Optical techniques to characterize polymer systems
(Studies in polymer science, 5)
Elsevier , Distributors for the United States and Canada, Elsevier Science, 1989
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University Library for Agricultural and Life Sciences, The University of Tokyo図
431.9:B265019061745
Note
Includes bibliographical references and index
Description and Table of Contents
Description
To optimize the properties of polymers or to design new polymeric materials for special applications, one has to understand how their properties depend on chemical and physical structure. This, in turn, requires methods for material characterization operating on a microscopic level such as optical techniques. Over the past decades major progress has been made in exploiting the analytical power offered by spectroscopic methods if combined with modern light source and detection technology. This multi-author book has been written in order to acquaint a broader audience with these recent achievements. Its individual chapters have been arranged in three groups featuring absorption, luminescence and diffraction techniques including non-linear optics for probing the physical structure of polymers, as well as their dynamic behavior in the presence and absence of electronic excitation. Emphasis has been placed on recent developments in the spectroscopy of solid polymers.
Table of Contents
FTIR-spectroscopy of polymers (J.L. Koenig). Studies by FTIR spectroscopy of molecular orientation in monomolecular layers of polymers on solid substrates (T. Arndt, G. Wegner). Glass dynamics probed by motional line narrowing of reactions in polymers via absorption spectroscopy of photochromism (R. Richert). Photoelectron spectroscopy of polymers (K. Seki). Site-selective fluorescence spectroscopy of polymers (H. Bassler). Triplet state spectroscopy of polymers (R.D. Burkhart). Polymers in solids: structure and interactions measured by electronic excitation transport (K.A. Peterson et al.). Nonlinear optical spectroscopy of polymers (E. Cavicchi et al.). Resonance Raman spectroscopy of conjugated polymers (D.N. Batchelder). Brillouin spectroscopy and its application to polymers (J.H. Kruger). Photon correlation spectroscopy of amorphous bulk polymers and compatible polymer blends (G. Meier, G. Fytas). Synchrotron radiation X-ray scattering (M.H.J. Koch). Subject Index.
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