SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1489449209> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W1489449209 endingPage "114" @default.
W1489449209 startingPage "104" @default.
W1489449209 abstract "In this work, titanium dioxide (TiO2) nanoparticles/halloysite nanotube (HNT) nanocomposites synthesized via one-step solvothermal method were used as nanofillers in the preparation of thin film nanocomposite (TFN) membranes for forward osmosis (FO) application. With respect to separation performance, it was reported that the TFN membrane incorporated with 0.05%(w/v) TiO2/HNTs (denoted as TFN0.05) exhibited the best performance due to its high water permeability and low reverse solute flux when tested using 10 mM NaCl feed solution and 2.0 M NaCl draw solution under two different membrane configurations. Moreover, compared to control membrane, the fabricated TFN0.05 membrane showed significantly better antifouling affinity against bovine serum albumin (BSA) as well as complete recovery of water flux after a simple water cleaning process. The results revealed that fouling in the TFN0.05 membrane is fully reversible. Overall, it can be concluded that the unique tubular structure of HNTs coupled with the excellent anti-fouling features of TiO2 have madeTiO2/HNTs a reliable material with a bright perspective in improving the antifouling affinity of conventional thin film composite membranes for FO applications. To the best of the authors' knowledge, this is the first study dedicated to the application of composite nanomaterials for the development of TFN FO membranes." @default.
W1489449209 created "2016-06-24" @default.
W1489449209 creator A5008244449 @default.
W1489449209 creator A5014355386 @default.
W1489449209 creator A5015847698 @default.
W1489449209 creator A5017798255 @default.
W1489449209 creator A5018539780 @default.
W1489449209 creator A5050644415 @default.
W1489449209 date "2015-09-01" @default.
W1489449209 modified "2023-09-30" @default.
W1489449209 title "Super hydrophilic TiO2/HNT nanocomposites as a new approach for fabrication of high performance thin film nanocomposite membranes for FO application" @default.
W1489449209 cites W1515162092 @default.
W1489449209 cites W174036330 @default.
W1489449209 cites W1950841066 @default.
W1489449209 cites W1964927587 @default.
W1489449209 cites W1965667359 @default.
W1489449209 cites W1966072972 @default.
W1489449209 cites W1974032699 @default.
W1489449209 cites W1978379368 @default.
W1489449209 cites W1982422962 @default.
W1489449209 cites W1982567983 @default.
W1489449209 cites W1985167115 @default.
W1489449209 cites W1985874233 @default.
W1489449209 cites W1988284855 @default.
W1489449209 cites W1989778301 @default.
W1489449209 cites W1997556089 @default.
W1489449209 cites W2000263561 @default.
W1489449209 cites W2001151193 @default.
W1489449209 cites W2007901420 @default.
W1489449209 cites W2012270576 @default.
W1489449209 cites W2014918125 @default.
W1489449209 cites W2014940872 @default.
W1489449209 cites W2020456218 @default.
W1489449209 cites W2022051679 @default.
W1489449209 cites W2025175218 @default.
W1489449209 cites W2026145305 @default.
W1489449209 cites W2029661596 @default.
W1489449209 cites W2037698268 @default.
W1489449209 cites W2043610895 @default.
W1489449209 cites W2044128247 @default.
W1489449209 cites W2045492376 @default.
W1489449209 cites W2046092755 @default.
W1489449209 cites W2048636247 @default.
W1489449209 cites W2055638681 @default.
W1489449209 cites W2056586909 @default.
W1489449209 cites W2057803705 @default.
W1489449209 cites W2058265854 @default.
W1489449209 cites W2061430577 @default.
W1489449209 cites W2062602945 @default.
W1489449209 cites W2070457814 @default.
W1489449209 cites W2072078271 @default.
W1489449209 cites W2074252620 @default.
W1489449209 cites W2075453315 @default.
W1489449209 cites W2080092908 @default.
W1489449209 cites W2083149949 @default.
W1489449209 cites W2083345634 @default.
W1489449209 cites W2085094845 @default.
W1489449209 cites W2085397070 @default.
W1489449209 cites W2088463643 @default.
W1489449209 cites W2090778393 @default.
W1489449209 cites W2092219797 @default.
W1489449209 cites W2103436073 @default.
W1489449209 cites W2105737997 @default.
W1489449209 cites W2109453811 @default.
W1489449209 cites W2136443636 @default.
W1489449209 cites W2153591330 @default.
W1489449209 cites W2160893284 @default.
W1489449209 cites W2167354123 @default.
W1489449209 cites W2167945968 @default.
W1489449209 cites W2171373299 @default.
W1489449209 cites W2321509215 @default.
W1489449209 cites W2333789365 @default.
W1489449209 cites W236041936 @default.
W1489449209 doi "https://doi.org/10.1016/j.desal.2015.06.007" @default.
W1489449209 hasPublicationYear "2015" @default.
W1489449209 type Work @default.
W1489449209 sameAs 1489449209 @default.
W1489449209 citedByCount "109" @default.
W1489449209 countsByYear W14894492092016 @default.
W1489449209 countsByYear W14894492092017 @default.
W1489449209 countsByYear W14894492092018 @default.
W1489449209 countsByYear W14894492092019 @default.
W1489449209 countsByYear W14894492092020 @default.
W1489449209 countsByYear W14894492092021 @default.
W1489449209 countsByYear W14894492092022 @default.
W1489449209 countsByYear W14894492092023 @default.
W1489449209 crossrefType "journal-article" @default.
W1489449209 hasAuthorship W1489449209A5008244449 @default.
W1489449209 hasAuthorship W1489449209A5014355386 @default.
W1489449209 hasAuthorship W1489449209A5015847698 @default.
W1489449209 hasAuthorship W1489449209A5017798255 @default.
W1489449209 hasAuthorship W1489449209A5018539780 @default.
W1489449209 hasAuthorship W1489449209A5050644415 @default.
W1489449209 hasConcept C115792997 @default.
W1489449209 hasConcept C127413603 @default.
W1489449209 hasConcept C130797344 @default.
W1489449209 hasConcept C146763847 @default.
W1489449209 hasConcept C159985019 @default.