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W3197133081 endingPage "44903" @default.
W3197133081 startingPage "44893" @default.
W3197133081 abstract "Most research on polymer composites has focused on adding discrete inorganic nanofillers to a polymer matrix to impart properties not found in polymers alone. However, properties such as ion conductivity and mechanical reinforcement would be greatly improved if the composite exhibited an interconnected network of inorganic and polymer phases. Here, we fabricate bicontinuous polymer-infiltrated scaffold metal (PrISM) composites by infiltrating polymer into nanoporous gold (NPG) films. Polystyrene (PS) and poly(2-vinylpyridine) (P2VP) films are infiltrated into the ∼43 nm diameter NPG pores via capillary forces during thermal annealing above the polymer glass transition temperature (Tg). The infiltration process is characterized in situ using spectroscopic ellipsometry. PS and P2VP, which have different affinities for the metal scaffold, exhibit slower segmental dynamics compared to their bulk counterparts when confined within the nanopores, as measured through Tg. The more attractive P2VP shows a 20 °C increase in Tg relative to its bulk, while PS only shows a 6 °C increase at a comparable molecular weight. The infiltrated polymer, in turn, stabilizes the gold nanopores against temporal coarsening. The broad tunability of these polymer/metal hybrids represents a unique template for designing functional network composite structures with applications ranging from flexible electronics to fuel cell membranes." @default.
W3197133081 created "2021-09-13" @default.
W3197133081 creator A5001320174 @default.
W3197133081 creator A5030663793 @default.
W3197133081 creator A5038571349 @default.
W3197133081 creator A5058822275 @default.
W3197133081 creator A5074582280 @default.
W3197133081 creator A5076133429 @default.
W3197133081 creator A5083901497 @default.
W3197133081 creator A5085987305 @default.
W3197133081 creator A5088670364 @default.
W3197133081 date "2021-09-08" @default.
W3197133081 modified "2023-10-16" @default.
W3197133081 title "Effect of Nanoscale Confinement on Polymer-Infiltrated Scaffold Metal Composites" @default.
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