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W3004734963 endingPage "115543" @default.
W3004734963 startingPage "115543" @default.
W3004734963 abstract "Precise prediction of the gas permeability behavior through the mixed matrix Composite membranes (MMMs) composed of the tubular fillers using existing theoretical approaches are infrequent. This is normally due to the neglecting the interfacial characteristics of the tubular filler particles i.e. multi-walled structured carbon nanotubes (MWCNTs) and a matrix composed of polymeric material in the existing theoretical models, especially, the Kang-Jones-Nair (KJN) model and Hamilton-Crosser model (HC) which were developed for the prediction of gas permeability behavior through the mixed matrix membranes (MMMs) composed of the tubular fillers. In this work, raw- and functionalized MWCNTs filler based MMMs in polysulfone (PSF) matrix were synthesized successfully, followed by morphological analysis on matrix interfacial layers parameters. KJN model was modified by introducing pseudo-dispersed phase fillers that influenced the interfacial layer and consequently overall gas permeabilities, which was ignored in existing models. The new proposed theoretical model is able to predict the gas permeability behavior with significantly reduced average absolute relative error (%AARE) of 1.26% compared to 52.43% and 42.71% for unmodified KJN and HC models, respectively. Furthermore, the mKJN model revealed that the interfacial layer thickness is a unique characteristic and is autonomous of the penetrant molecules of gas which may be influenced by the heterogeneity in the experimental conditions. The cross-sectional morphology and mKJN model revealed that the filler functionalization may lead to the improvement in filler-polymer interaction which thus reduced interfacial layer thickness." @default.
W3004734963 created "2020-02-14" @default.
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W3004734963 date "2020-06-01" @default.
W3004734963 modified "2023-10-16" @default.
W3004734963 title "Influence of interfacial layer parameters on gas transport properties through modeling approach in MWCNTs based mixed matrix composite membranes" @default.
W3004734963 cites W1965103721 @default.
W3004734963 cites W1967160136 @default.
W3004734963 cites W1976089734 @default.
W3004734963 cites W1984420323 @default.
W3004734963 cites W1985261292 @default.
W3004734963 cites W1995231004 @default.
W3004734963 cites W1995636578 @default.
W3004734963 cites W1998491249 @default.
W3004734963 cites W2005581339 @default.
W3004734963 cites W2010709876 @default.
W3004734963 cites W2011973637 @default.
W3004734963 cites W2014250519 @default.
W3004734963 cites W2017236889 @default.
W3004734963 cites W2017921086 @default.
W3004734963 cites W2022353023 @default.
W3004734963 cites W2026860542 @default.
W3004734963 cites W2031658063 @default.
W3004734963 cites W2033447591 @default.
W3004734963 cites W2039232312 @default.
W3004734963 cites W2040404140 @default.
W3004734963 cites W2042757902 @default.
W3004734963 cites W2049477137 @default.
W3004734963 cites W2055872251 @default.
W3004734963 cites W2058135277 @default.
W3004734963 cites W2064181471 @default.
W3004734963 cites W2067074745 @default.
W3004734963 cites W2067653346 @default.
W3004734963 cites W2068672610 @default.
W3004734963 cites W2075717509 @default.
W3004734963 cites W2076612362 @default.
W3004734963 cites W2078748481 @default.
W3004734963 cites W2085352908 @default.
W3004734963 cites W2087297346 @default.
W3004734963 cites W2092464887 @default.
W3004734963 cites W2092985403 @default.
W3004734963 cites W2108886061 @default.
W3004734963 cites W2122840059 @default.
W3004734963 cites W2218901790 @default.
W3004734963 cites W2314219893 @default.
W3004734963 cites W2314388259 @default.
W3004734963 cites W2317383248 @default.
W3004734963 cites W2322765374 @default.
W3004734963 cites W2331879080 @default.
W3004734963 cites W2343305591 @default.
W3004734963 cites W2412003812 @default.
W3004734963 cites W2460323199 @default.
W3004734963 cites W2466087626 @default.
W3004734963 cites W2497688149 @default.
W3004734963 cites W2507120302 @default.
W3004734963 cites W2512691043 @default.
W3004734963 cites W2519607215 @default.
W3004734963 cites W2527792471 @default.
W3004734963 cites W2537574531 @default.
W3004734963 cites W2551243472 @default.
W3004734963 cites W2566840611 @default.
W3004734963 cites W2570219284 @default.
W3004734963 cites W2572737024 @default.
W3004734963 cites W2594672449 @default.
W3004734963 cites W2762549947 @default.
W3004734963 cites W2764184599 @default.
W3004734963 cites W2773787028 @default.
W3004734963 cites W2794209960 @default.
W3004734963 cites W2794946647 @default.
W3004734963 cites W2887396403 @default.
W3004734963 cites W2888722360 @default.
W3004734963 cites W2896118197 @default.
W3004734963 cites W2903705849 @default.
W3004734963 cites W2913533825 @default.
W3004734963 cites W2916152714 @default.
W3004734963 cites W2952280154 @default.
W3004734963 cites W2957857708 @default.
W3004734963 cites W2970401673 @default.
W3004734963 cites W2978621269 @default.
W3004734963 cites W2990135851 @default.
W3004734963 cites W2991446844 @default.
W3004734963 cites W3000259530 @default.
W3004734963 cites W4233449160 @default.
W3004734963 doi "https://doi.org/10.1016/j.ces.2020.115543" @default.
W3004734963 hasPublicationYear "2020" @default.
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