Low-temperature dynamics in amorphous polymers and low-molecular-weight glasses-what is the difference?

Numerous experiments have shown that the low-temperature dynamics of a wide variety of disordered solids is qualitatively universal. However, most of these results were obtained with ensemble-averaging techniques which hide the local parameters of the dynamic processes. We used single-molecule (SM)...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2011-02, Vol.13 (5), p.1843-1848
Hauptverfasser:	Eremchev, Ivan Yu, Vainer, Yury G, Naumov, Andrei V, Kador, Lothar
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemical composition Dynamics Flares Glass Glass - chemistry Mathematical analysis Molecular Weight Oligomers Polyenes - chemistry Polymers Polymers - chemistry Spectra Temperature
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creator	Eremchev, Ivan Yu Vainer, Yury G Naumov, Andrei V Kador, Lothar
description	Numerous experiments have shown that the low-temperature dynamics of a wide variety of disordered solids is qualitatively universal. However, most of these results were obtained with ensemble-averaging techniques which hide the local parameters of the dynamic processes. We used single-molecule (SM) spectroscopy for direct observation of the dynamic processes in disordered solids with different internal structure and chemical composition. The surprising result is that the dynamics of low-molecular-weight glasses and short-chain polymers does not follow, on a microscopic level, the current concept of low-temperature glass dynamics. An extra contribution to the dynamics was detected causing irreproducible jumps and drifts of the SM spectra on timescales between milliseconds and minutes. In most matrices consisting of small molecules and oligomers, the spectral dynamics was so fast that SM spectra could hardly or not at all be recorded and only irregular fluorescence flares were observed. These results provide new mechanistic insight into the behavior of glasses in general: At low temperatures, the local dynamics of disordered solids is not universal but depends on the structure and chemical composition of the material. Typical slow single-molecule spectral dynamics (spectral trails) at temperatures below a few kelvins in (poly)crystalline, polymer and glassy dye-matrix systems.
doi_str_mv	10.1039/c0cp01690j
format	Article
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subjects	Chemical composition Dynamics Flares Glass Glass - chemistry Mathematical analysis Molecular Weight Oligomers Polyenes - chemistry Polymers Polymers - chemistry Spectra Temperature
title	Low-temperature dynamics in amorphous polymers and low-molecular-weight glasses-what is the difference?
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