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W4281721152 endingPage "125045" @default.
W4281721152 startingPage "125045" @default.
W4281721152 abstract "In this study, the poly(ionic liquid)s (PILs)-based block copolymers (BCPs) with a high charge density, poly(ethylene oxide)-b-quaternized poly(4-vinylpyridinium) with X− as counterion (PEO-b-QP4VP-X), were prepared by full quaternization of the poly(4-vinylpyridine) (P4VP) block in neutral PEO-b-P4VP BCP. The complete quaternization of P4VP block was confirmed by NMR and FT-IR. The phase separation behavior of PEO-b-QP4VP-X BCPs was examined, which was found to be strongly dependent on the counterion species. Specifically, as compared with the neutral PEO-b-P4VP, PEO-b-QP4VP-Br exhibits a stronger segregation strength, while the other three PEO-b-QP4VP-X (X = PF6, TFO and TFSI) BCPs show a weaker phase separation ability. The phase behavior of PEO-b-QP4VP-X was explained using the thermodynamic mechanism originally applied for salt-doped BCPs of low charge density. The variation of the Flory-Huggins parameter (Δχ) can be divided into three terms: Δχ1 due to the change in monomer identity after quaternization, ΔχBorn from the Born energy of counterions and χΓ arising from the local charge cohesion. For PEO-b-QP4VP-X BCPs, both Δχ1 and ΔχBorn are negative, but χΓ is positive, and they vary with counterion size in different ways. The competition of these three terms dominates the change tendency of phase behavior, among which Δχ1 plays an important role at high level of charge density. The rationality of the aforementioned thermodynamic mechanism of Δχ was also verified by the phase behavior of salt-doped PEO-b-QP4VP-X." @default.
W4281721152 created "2022-06-13" @default.
W4281721152 creator A5009305389 @default.
W4281721152 creator A5019638514 @default.
W4281721152 creator A5041003711 @default.
W4281721152 creator A5071999954 @default.
W4281721152 creator A5082922110 @default.
W4281721152 date "2022-07-01" @default.
W4281721152 modified "2023-10-18" @default.
W4281721152 title "Thermodynamic understanding the phase behavior of fully quaternized poly(ethylene oxide)-b-poly(4-vinylpyridine) block copolymers" @default.
W4281721152 cites W1964181972 @default.
W4281721152 cites W1965252165 @default.
W4281721152 cites W1976925469 @default.
W4281721152 cites W1988802578 @default.
W4281721152 cites W1993190277 @default.
W4281721152 cites W2001798443 @default.
W4281721152 cites W2007624636 @default.
W4281721152 cites W2012172104 @default.
W4281721152 cites W2015603683 @default.
W4281721152 cites W2020820416 @default.
W4281721152 cites W2024293617 @default.
W4281721152 cites W2026132129 @default.
W4281721152 cites W2034501059 @default.
W4281721152 cites W2042941714 @default.
W4281721152 cites W2047675835 @default.
W4281721152 cites W2051756270 @default.
W4281721152 cites W2055142891 @default.
W4281721152 cites W2056267512 @default.
W4281721152 cites W2057466869 @default.
W4281721152 cites W2066034379 @default.
W4281721152 cites W2070577204 @default.
W4281721152 cites W2071223718 @default.
W4281721152 cites W2077528799 @default.
W4281721152 cites W2078976986 @default.
W4281721152 cites W2085536909 @default.
W4281721152 cites W2095197640 @default.
W4281721152 cites W2105175927 @default.
W4281721152 cites W2130161532 @default.
W4281721152 cites W2158388550 @default.
W4281721152 cites W2159279774 @default.
W4281721152 cites W2164691888 @default.
W4281721152 cites W2282324288 @default.
W4281721152 cites W2298155817 @default.
W4281721152 cites W2313726239 @default.
W4281721152 cites W2314200092 @default.
W4281721152 cites W2320227664 @default.
W4281721152 cites W2324940789 @default.
W4281721152 cites W2325852564 @default.
W4281721152 cites W2325975864 @default.
W4281721152 cites W2328461195 @default.
W4281721152 cites W2329330520 @default.
W4281721152 cites W2333981730 @default.
W4281721152 cites W2344924010 @default.
W4281721152 cites W2477082306 @default.
W4281721152 cites W2483344556 @default.
W4281721152 cites W2561515125 @default.
W4281721152 cites W2587271878 @default.
W4281721152 cites W2618700013 @default.
W4281721152 cites W2792633217 @default.
W4281721152 cites W2808057519 @default.
W4281721152 cites W2885617935 @default.
W4281721152 cites W2898857255 @default.
W4281721152 cites W2909249601 @default.
W4281721152 cites W2913734631 @default.
W4281721152 cites W2922868131 @default.
W4281721152 cites W2925845645 @default.
W4281721152 cites W2939564094 @default.
W4281721152 cites W2952188373 @default.
W4281721152 cites W2959536994 @default.
W4281721152 cites W2963772516 @default.
W4281721152 cites W2965804259 @default.
W4281721152 cites W2970045863 @default.
W4281721152 cites W2980292831 @default.
W4281721152 cites W2985076018 @default.
W4281721152 cites W3005957982 @default.
W4281721152 cites W3007820754 @default.
W4281721152 cites W3020872943 @default.
W4281721152 cites W3024756929 @default.
W4281721152 cites W3031419072 @default.
W4281721152 cites W3089055590 @default.
W4281721152 cites W3096117235 @default.
W4281721152 cites W3104865133 @default.
W4281721152 cites W3131187634 @default.
W4281721152 cites W3183597181 @default.
W4281721152 cites W3205300746 @default.
W4281721152 doi "https://doi.org/10.1016/j.polymer.2022.125045" @default.
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