2011
DOI: 10.1016/j.jnoncrysol.2011.04.019
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Thiol-ene/hyperbranched polymer hybrid thin films: Cure behavior and gas barrier properties

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Cited by 5 publications
(2 citation statements)
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“…225 Within this broad research eld there has been signicant interest in the preparation and application of hydrogels, [226][227][228][229][230][231][232][233] the synthesis of crosslinked beads/polymeric nanoparticles, 234,235 the development of dental restorative materials, [236][237][238][239] nanoprint/so lithography, [240][241][242][243] as well as the preparation of porous materials by emulsion templating, 244,245 the synthesis of novel polyanhydride networks, 246,247 and gas barrier and transport properties associated with thiol-ene networks. [248][249][250][251] Additionally, there have been numerous reports detailing the general synthesis and properties of new thiol-enebased networks and crosslinked materials [252][253][254][255][256][257][258][259][260][261][262][263][264][265][266][267][268]…”
Section: Polymeric Network and Crosslinked Materialsmentioning
confidence: 99%
“…225 Within this broad research eld there has been signicant interest in the preparation and application of hydrogels, [226][227][228][229][230][231][232][233] the synthesis of crosslinked beads/polymeric nanoparticles, 234,235 the development of dental restorative materials, [236][237][238][239] nanoprint/so lithography, [240][241][242][243] as well as the preparation of porous materials by emulsion templating, 244,245 the synthesis of novel polyanhydride networks, 246,247 and gas barrier and transport properties associated with thiol-ene networks. [248][249][250][251] Additionally, there have been numerous reports detailing the general synthesis and properties of new thiol-enebased networks and crosslinked materials [252][253][254][255][256][257][258][259][260][261][262][263][264][265][266][267][268]…”
Section: Polymeric Network and Crosslinked Materialsmentioning
confidence: 99%
“…We believe that this could be related to the different coefficients of thermal expansion (CTEs) of the PEDOT:PSS films and substrates, resulting in the deformation of the conducting layer. CTEs have been reported to be approximately 53 × 10 −6 / • C for PEDOT:PSS films [49], 8 × 10 −6 / • C for alumina ceramics [50], and 151 × 10 −6 / • C for thiol-ene [51]. Thus, the influence of alumina and thiol-ene substrates on PEDOT:PSS films is the opposite.…”
Section: Resultsmentioning
confidence: 99%