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W3048199643 startingPage "39586" @default.
W3048199643 abstract "Hybrid inorganic/block copolymer (BCP) materials have become increasingly relevant for application in heterogeneous catalysis, microelectronics, and nanomedicine. While block copolymer templates are widely used for the formation of inorganic nanostructures, multicompartment templates could give access to more complex shapes and inner structures that are challenging to obtain with traditional processes. Here, we report the formation and characterization of hybrid platinum/polymer helices using multicompartment nanofibers (MCNFs) of polystyrene-block-polybutadiene-block-poly(tert-butyl methacrylate) (PS-b-PB-b-PT) triblock terpolymers as templates. Cross-linking of a PS-b-PB-b-PT helix-on-cylinder morphology resulted in uniform nanofibers with a diameter of 90 nm and a length of several micrometers, as well as an inner PB double helix (diameter 35 nm, pitch 25 nm, core 12 nm). The PB double helix served as template for the sol–gel reaction of H2PtCl6 into hybrid Pt double helices (Pt@MCNFs) as verified by STEM, electron tomography, AFM, and SEM. Carbonization of the Pt hybrids into Pt decorated carbon nanofibers (Pt@C) was followed in situ on a TEM heating state. Gradual heating from 25 to 1000 °C induced fusion of amorphous Pt NPs into larger crystalline Pt NP, which sheds light on the aging of Pt NPs in BCP scaffolds under high temperature conditions. The Pt@MCNFs were further sulfonated and incorporated into a filter to catalyze a model compound in a continuous flow process." @default.
W3048199643 created "2020-08-13" @default.
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W3048199643 date "2020-08-06" @default.
W3048199643 modified "2023-09-25" @default.
W3048199643 title "Terpolymer Multicompartment Nanofibers as Templates for Hybrid Pt Double Helices" @default.
W3048199643 cites W1970872341 @default.
W3048199643 cites W1976122430 @default.
W3048199643 cites W1981829631 @default.
W3048199643 cites W1988926127 @default.
W3048199643 cites W1992928102 @default.
W3048199643 cites W1996844579 @default.
W3048199643 cites W2001741427 @default.
W3048199643 cites W2003274617 @default.
W3048199643 cites W2014764010 @default.
W3048199643 cites W2026132129 @default.
W3048199643 cites W2029129350 @default.
W3048199643 cites W2048923249 @default.
W3048199643 cites W2055046678 @default.
W3048199643 cites W2062467184 @default.
W3048199643 cites W2063133923 @default.
W3048199643 cites W2064470737 @default.
W3048199643 cites W2066283904 @default.
W3048199643 cites W2066919659 @default.
W3048199643 cites W2083681888 @default.
W3048199643 cites W2083748154 @default.
W3048199643 cites W2087681930 @default.
W3048199643 cites W2093262329 @default.
W3048199643 cites W2095116945 @default.
W3048199643 cites W2097772055 @default.
W3048199643 cites W2097917649 @default.
W3048199643 cites W2107185453 @default.
W3048199643 cites W2111601428 @default.
W3048199643 cites W2117694029 @default.
W3048199643 cites W2122719482 @default.
W3048199643 cites W2126174578 @default.
W3048199643 cites W2131286481 @default.
W3048199643 cites W2131548121 @default.
W3048199643 cites W2131894264 @default.
W3048199643 cites W2132629607 @default.
W3048199643 cites W2143467431 @default.
W3048199643 cites W2156901760 @default.
W3048199643 cites W2162949380 @default.
W3048199643 cites W2163067097 @default.
W3048199643 cites W2167279371 @default.
W3048199643 cites W2169868793 @default.
W3048199643 cites W2171302889 @default.
W3048199643 cites W2171376610 @default.
W3048199643 cites W2274842194 @default.
W3048199643 cites W2298068275 @default.
W3048199643 cites W2320412309 @default.
W3048199643 cites W2326411970 @default.
W3048199643 cites W2330192118 @default.
W3048199643 cites W2331499692 @default.
W3048199643 cites W2346570814 @default.
W3048199643 cites W2465894492 @default.
W3048199643 cites W2519432467 @default.
W3048199643 cites W2529397552 @default.
W3048199643 cites W2534278659 @default.
W3048199643 cites W2781554275 @default.
W3048199643 cites W2790304041 @default.
W3048199643 cites W2793130634 @default.
W3048199643 cites W2799303226 @default.
W3048199643 cites W2802791016 @default.
W3048199643 cites W2886715584 @default.
W3048199643 cites W2906214012 @default.
W3048199643 cites W2912321905 @default.
W3048199643 cites W2944889782 @default.
W3048199643 cites W2950189187 @default.
W3048199643 cites W2990200303 @default.
W3048199643 cites W3014351808 @default.
W3048199643 cites W3027337115 @default.
W3048199643 cites W3032611264 @default.
W3048199643 cites W3098432106 @default.
W3048199643 cites W4290051497 @default.
W3048199643 cites W861926 @default.
W3048199643 doi "https://doi.org/10.1021/acsami.0c10385" @default.
W3048199643 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32805896" @default.
W3048199643 hasPublicationYear "2020" @default.
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