This work presents the application of FT-IR spectroscopy to study the thermal evolution of PEG-basednanocomposites prepared using montmorillonite STx intercalated with polyethylene oxides PEG 1500and PEG 4000 and polyethylene oxide BRIJ. The effect of different polymer molecular weights and poly-mer loadings has been evaluated by means of diagnostic mid-IR bands. PEG fragmentation through thecleavage of the C O bond appears to be the main reaction step, leading to the formation of short chaincarbonyl adsorbed species (such as acetaldehyde), alcohols (ethanol and methanol) and, to a lesser extent,esters species, characterized by the frequency of the carbonyl stretching band. The detection of carbonylband evidenced the formation of partial oxidation products as first step of the thermal degradation.Increasing polymer loadings, as well as increasing polymer molecular weight leads to lower tempera-ture of formation of the first oxidation products. No clear indication of the effect of the chemical naturefor the intercalated polymers can be obtained. BRIJ thermal decomposition seems to be mainly driven bythe PEG-like moiety chemistry.CH stretching bands detected at 450–500◦C for the samples intercalated with PEG samples indicatedthe formation of residual organic compounds resisting oxidation, possibly char species preserved fromfurther oxidation by the interlayer galleries.

Thermal evolution of PEG-based and BRIJ-based hybrid organo-inorganic materials. FT-IR studies

FINOCCHIO, ELISABETTA;
2014-01-01

Abstract

This work presents the application of FT-IR spectroscopy to study the thermal evolution of PEG-basednanocomposites prepared using montmorillonite STx intercalated with polyethylene oxides PEG 1500and PEG 4000 and polyethylene oxide BRIJ. The effect of different polymer molecular weights and poly-mer loadings has been evaluated by means of diagnostic mid-IR bands. PEG fragmentation through thecleavage of the C O bond appears to be the main reaction step, leading to the formation of short chaincarbonyl adsorbed species (such as acetaldehyde), alcohols (ethanol and methanol) and, to a lesser extent,esters species, characterized by the frequency of the carbonyl stretching band. The detection of carbonylband evidenced the formation of partial oxidation products as first step of the thermal degradation.Increasing polymer loadings, as well as increasing polymer molecular weight leads to lower tempera-ture of formation of the first oxidation products. No clear indication of the effect of the chemical naturefor the intercalated polymers can be obtained. BRIJ thermal decomposition seems to be mainly driven bythe PEG-like moiety chemistry.CH stretching bands detected at 450–500◦C for the samples intercalated with PEG samples indicatedthe formation of residual organic compounds resisting oxidation, possibly char species preserved fromfurther oxidation by the interlayer galleries.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11567/762795
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