Use of micro-ATR/FTIR imaging to study heterogeneous polymer oxidation by direct solvent casting onto the ATR IRE

A technique is described whereby micro-ATR/FTIR imaging can be used to follow polymer degradation reactions in situ in real time. The internal reflection element (IRE) assembly is removed from the ATR objective and polymer is solvent cast directly onto the IRE surface. The polymer is then subjected...

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Veröffentlicht in:	Vibrational spectroscopy 2010-05, Vol.53 (1), p.24-27
Hauptverfasser:	Nagle, Dylan J., George, Graeme A., Rintoul, Llewellyn, Fredericks, Peter M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Assembly ATR Contact Degradation Imaging Imaging FTIR Polymer degradation Reflection Solvents Spectra
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container_title	Vibrational spectroscopy
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creator	Nagle, Dylan J. George, Graeme A. Rintoul, Llewellyn Fredericks, Peter M.
description	A technique is described whereby micro-ATR/FTIR imaging can be used to follow polymer degradation reactions in situ in real time. The internal reflection element (IRE) assembly is removed from the ATR objective and polymer is solvent cast directly onto the IRE surface. The polymer is then subjected to degradation conditions and molecular structural changes monitored by periodically replacing the IRE assembly back in the ATR objective and collecting spectra which can be used to construct images. This approach has the benefit that the same part of the sample is always studied, and that contact by pressure which might damage the polymer surface is not required. The technique is demonstrated using the polymer Topas which was degraded by exposure to UVC light in air.
doi_str_mv	10.1016/j.vibspec.2010.01.018
format	Article
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subjects	Assembly ATR Contact Degradation Imaging Imaging FTIR Polymer degradation Reflection Solvents Spectra
title	Use of micro-ATR/FTIR imaging to study heterogeneous polymer oxidation by direct solvent casting onto the ATR IRE
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