SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4366816156> ?p ?o ?g. }

Showing items 1 to 100 of ±170 with 100 items per page.

W4366816156 endingPage "3896" @default.
W4366816156 startingPage "3887" @default.
W4366816156 abstract "Nafion, as the mostly used proton exchange membrane material in vanadium redox flow batteries (VRFBs), encounters serious vanadium permeation problems due to the large size difference between its anionic nanophase (3-5 nm) and cationic vanadium ions (∼0.6 nm). Bulk hybridization usually suppresses the vanadium permeation at the expense of proton conductivity since conventional additives tend to randomly agglomerate and damage the nanophase continuity from unsuitable sizes and intrinsic incompatibility. Here, we report the ionic-nanophase hybridization strategy of Nafion membranes by using fluorinated block copolymers (FBCs) and polyoxometalates (POMs) as supramolecular patching additives. The cooperative noncovalent interactions among Nafion, interfacial-active FBCs, and POMs can construct a 1 nm-shrunk ionic nanophase with abundant proton transport sites, preserved continuity, and efficient vanadium screeners, which leads to a comprehensive enhancement in proton conductivity, selectivity, and VRFB performance. These results demonstrate the intriguing potential of the supramolecular patching strategy in precisely tuning nanostructured electrolyte membranes for improved performance." @default.
W4366816156 created "2023-04-25" @default.
W4366816156 creator A5003215334 @default.
W4366816156 creator A5005317927 @default.
W4366816156 creator A5009232538 @default.
W4366816156 creator A5009487812 @default.
W4366816156 creator A5018204019 @default.
W4366816156 creator A5030921116 @default.
W4366816156 creator A5037725720 @default.
W4366816156 creator A5038156538 @default.
W4366816156 creator A5082842341 @default.
W4366816156 creator A5088087329 @default.
W4366816156 creator A5088592356 @default.
W4366816156 date "2023-04-24" @default.
W4366816156 modified "2023-09-29" @default.
W4366816156 title "Ionic-Nanophase Hybridization of Nafion by Supramolecular Patching for Enhanced Proton Selectivity in Redox Flow Batteries" @default.
W4366816156 cites W1972585338 @default.
W4366816156 cites W1998556450 @default.
W4366816156 cites W2015176992 @default.
W4366816156 cites W2039709903 @default.
W4366816156 cites W2058631001 @default.
W4366816156 cites W2064352219 @default.
W4366816156 cites W2067621592 @default.
W4366816156 cites W2089525884 @default.
W4366816156 cites W2093393236 @default.
W4366816156 cites W2144814688 @default.
W4366816156 cites W2172080241 @default.
W4366816156 cites W2181868318 @default.
W4366816156 cites W2273943547 @default.
W4366816156 cites W2329523621 @default.
W4366816156 cites W2330114686 @default.
W4366816156 cites W2551922696 @default.
W4366816156 cites W2580954066 @default.
W4366816156 cites W2765373334 @default.
W4366816156 cites W2789577622 @default.
W4366816156 cites W2791732873 @default.
W4366816156 cites W2803346660 @default.
W4366816156 cites W2912257116 @default.
W4366816156 cites W2951652317 @default.
W4366816156 cites W2973456694 @default.
W4366816156 cites W2986524242 @default.
W4366816156 cites W2986627742 @default.
W4366816156 cites W2998893056 @default.
W4366816156 cites W3009148985 @default.
W4366816156 cites W3014639455 @default.
W4366816156 cites W3015040152 @default.
W4366816156 cites W3023686122 @default.
W4366816156 cites W3034233001 @default.
W4366816156 cites W3044803427 @default.
W4366816156 cites W3047438437 @default.
W4366816156 cites W3087146724 @default.
W4366816156 cites W3090276677 @default.
W4366816156 cites W3092889957 @default.
W4366816156 cites W3112950585 @default.
W4366816156 cites W3113137668 @default.
W4366816156 cites W3119816375 @default.
W4366816156 cites W3119960859 @default.
W4366816156 cites W3128515661 @default.
W4366816156 cites W3129043771 @default.
W4366816156 cites W3157060927 @default.
W4366816156 cites W3157423049 @default.
W4366816156 cites W3173210656 @default.
W4366816156 cites W3191261668 @default.
W4366816156 cites W3198438891 @default.
W4366816156 cites W3213178110 @default.
W4366816156 cites W4200022710 @default.
W4366816156 cites W4200297051 @default.
W4366816156 cites W4207084371 @default.
W4366816156 cites W4210418953 @default.
W4366816156 cites W4210426757 @default.
W4366816156 cites W4280620877 @default.
W4366816156 cites W4285250367 @default.
W4366816156 cites W4295900699 @default.
W4366816156 cites W4297242764 @default.
W4366816156 cites W4306409949 @default.
W4366816156 cites W4307727683 @default.
W4366816156 cites W4307847425 @default.
W4366816156 cites W4308002402 @default.
W4366816156 cites W4308068260 @default.
W4366816156 cites W4309631281 @default.
W4366816156 doi "https://doi.org/10.1021/acs.nanolett.3c00518" @default.
W4366816156 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37094227" @default.
W4366816156 hasPublicationYear "2023" @default.
W4366816156 type Work @default.
W4366816156 citedByCount "1" @default.
W4366816156 countsByYear W43668161562023 @default.
W4366816156 crossrefType "journal-article" @default.
W4366816156 hasAuthorship W4366816156A5003215334 @default.
W4366816156 hasAuthorship W4366816156A5005317927 @default.
W4366816156 hasAuthorship W4366816156A5009232538 @default.
W4366816156 hasAuthorship W4366816156A5009487812 @default.
W4366816156 hasAuthorship W4366816156A5018204019 @default.
W4366816156 hasAuthorship W4366816156A5030921116 @default.
W4366816156 hasAuthorship W4366816156A5037725720 @default.
W4366816156 hasAuthorship W4366816156A5038156538 @default.
W4366816156 hasAuthorship W4366816156A5082842341 @default.
W4366816156 hasAuthorship W4366816156A5088087329 @default.
W4366816156 hasAuthorship W4366816156A5088592356 @default.