SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1966946670> ?p ?o ?g. }

Showing items 1 to 100 of ±173 with 100 items per page.

W1966946670 endingPage "434" @default.
W1966946670 startingPage "425" @default.
W1966946670 abstract "Abstract A series of sulfonated styrenic pentablock copolymers was characterized using positron annihilation lifetime spectroscopy (PALS). Ortho -positronium ( o -Ps) lifetime was measured as a function of the polymer's degree of sulfonation and the environment in which the polymer was equilibrated. Samples ranged from an un-sulfonated styrenic pentablock copolymer to one with an ion exchange capacity (IEC) of 2.0 meq/g(dry polymer), and the samples were equilibrated in either air having 50% relative humidity, de-ionized (DI) water, or 2000 mg L −1 aqueous NaCl solution environments. The o -Ps lifetime, and thus, the average free volume element size, decreased as the polymer's degree of sulfonation increased and as the amount of water sorbed into the polymer increased, similar to reported decreases in o -Ps lifetime accompanying increased water sorption in uncharged cross-linked poly(ethylene glycol) hydrogels. The o -Ps lifetimes of the DI water equilibrated acid counter-ion form polymers were quite similar to those of the salt solution equilibrated sodium counter-ion form polymers, suggesting that the PALS data are not particularly sensitive to the counter-ion form of these hydrated polymers. Previously reported water and salt permeability data in polymers were correlated with the PALS data. Correlating water and salt permeability with free volume data, estimated using o -Ps lifetime, was complicated by the micro-phase separated nature of the block copolymers. The water permeability of polymers whose hydrophilic micro-domains are believed to be well connected correlated with free volume data, based on o -Ps lifetime. Salt permeability, however, did not correlate with free volume data estimated from o -Ps lifetime, according to free volume theory. In general, contributions of the hydrophobic micro-domain free volume to the PALS measurement frustrate the correlation of water and salt transport properties with PALS parameters in a manner that is not observed in other sulfonated and uncharged polymers." @default.
W1966946670 created "2016-06-24" @default.
W1966946670 creator A5005843396 @default.
W1966946670 creator A5046639988 @default.
W1966946670 creator A5056262302 @default.
W1966946670 creator A5062458918 @default.
W1966946670 creator A5084664188 @default.
W1966946670 date "2014-03-01" @default.
W1966946670 modified "2023-09-24" @default.
W1966946670 title "Free volume characterization of sulfonated styrenic pentablock copolymers using positron annihilation lifetime spectroscopy" @default.
W1966946670 cites W1965093722 @default.
W1966946670 cites W1967646322 @default.
W1966946670 cites W1971385774 @default.
W1966946670 cites W1972103123 @default.
W1966946670 cites W1974608911 @default.
W1966946670 cites W1975030247 @default.
W1966946670 cites W1982971286 @default.
W1966946670 cites W1985934170 @default.
W1966946670 cites W1986255195 @default.
W1966946670 cites W1986512300 @default.
W1966946670 cites W1989523622 @default.
W1966946670 cites W1995513311 @default.
W1966946670 cites W1995819225 @default.
W1966946670 cites W1996016803 @default.
W1966946670 cites W2000042454 @default.
W1966946670 cites W2001262264 @default.
W1966946670 cites W2001917906 @default.
W1966946670 cites W2003040835 @default.
W1966946670 cites W2008484484 @default.
W1966946670 cites W2008795542 @default.
W1966946670 cites W2012270576 @default.
W1966946670 cites W2016226232 @default.
W1966946670 cites W2018523256 @default.
W1966946670 cites W2018676835 @default.
W1966946670 cites W2021063402 @default.
W1966946670 cites W2024904027 @default.
W1966946670 cites W2025882445 @default.
W1966946670 cites W2029838787 @default.
W1966946670 cites W2031883401 @default.
W1966946670 cites W2032443462 @default.
W1966946670 cites W2033465655 @default.
W1966946670 cites W2033475854 @default.
W1966946670 cites W2039666416 @default.
W1966946670 cites W2046036678 @default.
W1966946670 cites W2047555798 @default.
W1966946670 cites W2049254359 @default.
W1966946670 cites W2052151535 @default.
W1966946670 cites W2055638681 @default.
W1966946670 cites W2055645754 @default.
W1966946670 cites W2058790123 @default.
W1966946670 cites W2063056397 @default.
W1966946670 cites W2063777275 @default.
W1966946670 cites W2065224526 @default.
W1966946670 cites W2071025690 @default.
W1966946670 cites W2073239970 @default.
W1966946670 cites W2076165448 @default.
W1966946670 cites W2077371216 @default.
W1966946670 cites W2082872125 @default.
W1966946670 cites W2083449915 @default.
W1966946670 cites W2086950634 @default.
W1966946670 cites W2087942908 @default.
W1966946670 cites W2088594376 @default.
W1966946670 cites W2090463987 @default.
W1966946670 cites W2090538517 @default.
W1966946670 cites W2090788242 @default.
W1966946670 cites W2095195627 @default.
W1966946670 cites W2096623033 @default.
W1966946670 cites W2097598103 @default.
W1966946670 cites W2109453811 @default.
W1966946670 cites W2111797199 @default.
W1966946670 cites W2120948303 @default.
W1966946670 cites W2131143698 @default.
W1966946670 cites W2166208306 @default.
W1966946670 cites W2170804474 @default.
W1966946670 cites W2222823098 @default.
W1966946670 cites W2314412155 @default.
W1966946670 cites W2316740992 @default.
W1966946670 cites W2317449890 @default.
W1966946670 cites W2319316454 @default.
W1966946670 cites W2322592459 @default.
W1966946670 cites W2329764383 @default.
W1966946670 cites W243490648 @default.
W1966946670 cites W4230454644 @default.
W1966946670 cites W4250684227 @default.
W1966946670 cites W4252530589 @default.
W1966946670 cites W4255287189 @default.
W1966946670 doi "https://doi.org/10.1016/j.memsci.2013.11.004" @default.
W1966946670 hasPublicationYear "2014" @default.
W1966946670 type Work @default.
W1966946670 sameAs 1966946670 @default.
W1966946670 citedByCount "44" @default.
W1966946670 countsByYear W19669466702014 @default.
W1966946670 countsByYear W19669466702015 @default.
W1966946670 countsByYear W19669466702016 @default.
W1966946670 countsByYear W19669466702017 @default.
W1966946670 countsByYear W19669466702018 @default.
W1966946670 countsByYear W19669466702019 @default.
W1966946670 countsByYear W19669466702020 @default.