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W2094087621 abstract "Hybrid materials remain the target for a fruitful range of investigations, especially for energy devices. A number of hybrid electrolyte membranes consisting of inorganic and organic phases were then synthesized. Mechanical, solvent uptake and ionic transport properties were studied with the key point being the characteristic length scale of the interaction between the phases. A group of nanocomposite membranes made of polystyrenesulfonic acid-grafted silica particles embedded in a Poly(Vinylidene Fluoride-co-HexaFluoroPropene) (PVdF-HFP) matrix was studied by combining neutron and X-ray scatterings on the nanometer to angstrom scale. This approach allows for the variation in the morphology and structure as a function of particle loading to be described. These studies showed that the particles aggregate with increasing particle loading and these aggregates swell, creating a physical interaction with the polymer matrix. Particle loadings lower than 30 wt% induce a slight strain between both of the subphases, namely the polymer matrix and the particles. This strain is decreased with particle loading between 20 and 30 wt% conjointly with the beginning of proton conduction. Then the percolation of the aggregates is the beginning of a significant increase of the conduction without any strain. This new insight can give information on the variation in other important intrinsic properties." @default.
W2094087621 created "2016-06-24" @default.
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W2094087621 date "2015-01-01" @default.
W2094087621 modified "2023-10-18" @default.
W2094087621 title "Inside the structure of a nanocomposite electrolyte membrane: how hybrid particles get along with the polymer matrix" @default.
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W2094087621 cites W1970782643 @default.
W2094087621 cites W1971856387 @default.
W2094087621 cites W1973193562 @default.
W2094087621 cites W1987513182 @default.
W2094087621 cites W1988879052 @default.
W2094087621 cites W1989586712 @default.
W2094087621 cites W1990939720 @default.
W2094087621 cites W1999372463 @default.
W2094087621 cites W2001829470 @default.
W2094087621 cites W2002544902 @default.
W2094087621 cites W2003642531 @default.
W2094087621 cites W2007464414 @default.
W2094087621 cites W2008623988 @default.
W2094087621 cites W2009745891 @default.
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W2094087621 cites W2018625472 @default.
W2094087621 cites W2022085543 @default.
W2094087621 cites W2023915547 @default.
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W2094087621 doi "https://doi.org/10.1039/c4nr05330c" @default.
W2094087621 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25607883" @default.
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