Well-defined silica core–poly(vinyl pyrrolidone) shell nanoparticles: Interactions and multi-modal glass transition dynamics at interfaces
Interfacial interactions/dynamics were studied in silica core–poly(vinyl pyrrolidone) (PVP) shell nanoparticles with the shell thickness of 1–2 (monolayer), 2–5, 5–15, and 8–25nm using far- and mid-IR spectroscopy and DSC activation analysis of the glass transition. Particles were prepared using a p...
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Veröffentlicht in: | Polymer (Guilford) 2009-01, Vol.50 (3), p.860-871 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Interfacial interactions/dynamics were studied in silica core–poly(vinyl pyrrolidone) (PVP) shell nanoparticles with the shell thickness of 1–2 (monolayer), 2–5, 5–15, and 8–25nm using far- and mid-IR spectroscopy and DSC activation analysis of the glass transition. Particles were prepared using a pseudo-liquid state procedure. Their geometry, structural organization and shell uniformity were characterized comprehensively by LTNA, AFM, QELS, FT-IR and densitometry techniques. As revealed, strong core–shell interfacial interactions, including hydrogen bonding and Lewis acid–base ones, resulted in the quite different, multi-modal glass transition dynamics in PVP nano shells. For 1–2nm thick monomolecular PVP shell, only several “abnormal” modes, including constrained cooperative and non-cooperative as well as ultra-fast non-cooperative ones, constituted segmental dynamics in the glass transition; the latter covered the range from 70 to 230°C, with varying apparent activation energy by one order of magnitude. Ultra-fast dynamic mode was caused by collapse of motional cooperativity (α- to β-relaxation transformation).
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ISSN: | 0032-3861 1873-2291 |
DOI: | 10.1016/j.polymer.2008.12.024 |