Effect of conformation of interfacial adsorbed chains on physical aging of polymer nanocomposites

The dynamics of polymer nanocomposites varies depending on the physics and chemistry at the polymer–nanoparticle interface. The physical aging of the nanocomposites is accelerated or retarded based on interfacial interactions and the state of polymer adsorption at the interfaces. In this study, we i...

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Veröffentlicht in:	The Journal of chemical physics 2024-02, Vol.160 (6)
Hauptverfasser:	Luo, Jintian, Luo, Yuhang, Tong, Ben, Tian, Houkuan, Yang, Yuhui, Zuo, Biao
Format:	Artikel
Sprache:	eng
Schlagworte:	Aging Fillers High temperature Molecular conformation Nanocomposites Polymers Polystyrene resins Temperature dependence
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container_title	The Journal of chemical physics
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creator	Luo, Jintian Luo, Yuhang Tong, Ben Tian, Houkuan Yang, Yuhui Zuo, Biao
description	The dynamics of polymer nanocomposites varies depending on the physics and chemistry at the polymer–nanoparticle interface. The physical aging of the nanocomposites is accelerated or retarded based on interfacial interactions and the state of polymer adsorption at the interfaces. In this study, we investigated the aging kinetics of silica–polystyrene nanocomposites using differential scanning calorimetry, focusing on the effect of local conformations of chains adsorbed on the nanofiller surface. The results show that the temperature dependence of the aging rate follows a Vogel–Fulcher–Tammann relationship at high temperatures, whereas it exhibits an Arrhenius-like behavior below a characteristic temperature (Tc). Notably, at T < Tc, the aging rate decreases with increasing loop height of the chains adsorbed on the filler surface, but the activation energy remains unchanged. We proposed that the suppression of the aging rate at T < Tc is likely related to an increase in the length scale over which the slow interfacial dynamics can propagate due to the increased topological interactions between the chain loops of a larger size and the free chains in the matrix. The increased packing frustration occurring at the filler surface occupied by the larger loops might also contribute to the decreased aging rate.
doi_str_mv	10.1063/5.0191458
format	Article
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The physical aging of the nanocomposites is accelerated or retarded based on interfacial interactions and the state of polymer adsorption at the interfaces. In this study, we investigated the aging kinetics of silica–polystyrene nanocomposites using differential scanning calorimetry, focusing on the effect of local conformations of chains adsorbed on the nanofiller surface. The results show that the temperature dependence of the aging rate follows a Vogel–Fulcher–Tammann relationship at high temperatures, whereas it exhibits an Arrhenius-like behavior below a characteristic temperature (Tc). Notably, at T < Tc, the aging rate decreases with increasing loop height of the chains adsorbed on the filler surface, but the activation energy remains unchanged. 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subjects	Aging Fillers High temperature Molecular conformation Nanocomposites Polymers Polystyrene resins Temperature dependence
title	Effect of conformation of interfacial adsorbed chains on physical aging of polymer nanocomposites
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