SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386436033> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W4386436033 endingPage "8107" @default.
W4386436033 startingPage "8099" @default.
W4386436033 abstract "Nanofiltration is a membrane separation technology that efficiently separates neutral/charged solutes with little energy consumption. Reusing or treating wastewater is one of the most efficient ways to help the environment. When it comes to concentration polarization, membrane fouling, and selective permeation, however, commercial thin film composite (TFC) nanofiltration membranes exhibit more severe trade-off effects. Here, we build a TFN membrane by dispersing tannic acid (TA)-functionalized MXene (Ti3C2TX) nanosheets into the aqueous phase and incorporating them into the polyamide surface layer by interfacial polymerization. The produced membrane has been shown by a number of chemical and structural investigations to be not only porous, hydrophilic, and negatively charged but also capable of constructing transport channels in the separating layer, hence lowering the barrier to mass transfer. Changes in TA/MXene ratio and MXene nanosheet concentration allowed for fine-tuning of TMNF-TFNs membrane characteristics. Specifically, the results show that the enhanced membrane has a high water flow of 16.6 L m–2 h–1 bar–1 and a high rejection rate of divalent ions (MgSO4, Na2SO4). Important for real-world applications, the TMNF-TFN membrane also displays outstanding antifouling durability and long stability." @default.
W4386436033 created "2023-09-05" @default.
W4386436033 creator A5004649120 @default.
W4386436033 creator A5012100657 @default.
W4386436033 creator A5032796228 @default.
W4386436033 creator A5033461783 @default.
W4386436033 creator A5070984013 @default.
W4386436033 creator A5072211609 @default.
W4386436033 creator A5083445205 @default.
W4386436033 creator A5084376514 @default.
W4386436033 date "2023-09-04" @default.
W4386436033 modified "2023-10-15" @default.
W4386436033 title "Thin Film Nanocomposite Membranes with Tannic Acid Functionalized MXene Nanosheets for High-Performance Nanofiltration" @default.
W4386436033 cites W1513798492 @default.
W4386436033 cites W1989050272 @default.
W4386436033 cites W2014451195 @default.
W4386436033 cites W2015422804 @default.
W4386436033 cites W2028363871 @default.
W4386436033 cites W2029940588 @default.
W4386436033 cites W2045492376 @default.
W4386436033 cites W2165172960 @default.
W4386436033 cites W2170425047 @default.
W4386436033 cites W2291418450 @default.
W4386436033 cites W2413889941 @default.
W4386436033 cites W2510292900 @default.
W4386436033 cites W2517708724 @default.
W4386436033 cites W2552458388 @default.
W4386436033 cites W2555746904 @default.
W4386436033 cites W2570033569 @default.
W4386436033 cites W2594407419 @default.
W4386436033 cites W2620591065 @default.
W4386436033 cites W2625153997 @default.
W4386436033 cites W2751403677 @default.
W4386436033 cites W2782051023 @default.
W4386436033 cites W2783064835 @default.
W4386436033 cites W2791492850 @default.
W4386436033 cites W2793792657 @default.
W4386436033 cites W2882993402 @default.
W4386436033 cites W2903236462 @default.
W4386436033 cites W2942099795 @default.
W4386436033 cites W2944044610 @default.
W4386436033 cites W2966193397 @default.
W4386436033 cites W2971641298 @default.
W4386436033 cites W2980688368 @default.
W4386436033 cites W2982030414 @default.
W4386436033 cites W2987036153 @default.
W4386436033 cites W2993680550 @default.
W4386436033 cites W3007201837 @default.
W4386436033 cites W3017697247 @default.
W4386436033 cites W3027184081 @default.
W4386436033 cites W3042544807 @default.
W4386436033 cites W3048812995 @default.
W4386436033 cites W3084358066 @default.
W4386436033 cites W3118269910 @default.
W4386436033 cites W3183346702 @default.
W4386436033 cites W3199202430 @default.
W4386436033 cites W3205289222 @default.
W4386436033 cites W4205705129 @default.
W4386436033 cites W4287511953 @default.
W4386436033 cites W4292101533 @default.
W4386436033 cites W4296143880 @default.
W4386436033 cites W4306632328 @default.
W4386436033 cites W4307295283 @default.
W4386436033 cites W4309484588 @default.
W4386436033 cites W4311748717 @default.
W4386436033 cites W4319336518 @default.
W4386436033 cites W4323030973 @default.
W4386436033 cites W4323322450 @default.
W4386436033 doi "https://doi.org/10.1021/acsapm.3c01296" @default.
W4386436033 hasPublicationYear "2023" @default.
W4386436033 type Work @default.
W4386436033 citedByCount "0" @default.
W4386436033 crossrefType "journal-article" @default.
W4386436033 hasAuthorship W4386436033A5004649120 @default.
W4386436033 hasAuthorship W4386436033A5012100657 @default.
W4386436033 hasAuthorship W4386436033A5032796228 @default.
W4386436033 hasAuthorship W4386436033A5033461783 @default.
W4386436033 hasAuthorship W4386436033A5070984013 @default.
W4386436033 hasAuthorship W4386436033A5072211609 @default.
W4386436033 hasAuthorship W4386436033A5083445205 @default.
W4386436033 hasAuthorship W4386436033A5084376514 @default.
W4386436033 hasConcept C115792997 @default.
W4386436033 hasConcept C127413603 @default.
W4386436033 hasConcept C130797344 @default.
W4386436033 hasConcept C146763847 @default.
W4386436033 hasConcept C159985019 @default.
W4386436033 hasConcept C166940927 @default.
W4386436033 hasConcept C171250308 @default.
W4386436033 hasConcept C178790620 @default.
W4386436033 hasConcept C184651966 @default.
W4386436033 hasConcept C185592680 @default.
W4386436033 hasConcept C192562407 @default.
W4386436033 hasConcept C2780861853 @default.
W4386436033 hasConcept C2781393965 @default.
W4386436033 hasConcept C38115104 @default.
W4386436033 hasConcept C41625074 @default.
W4386436033 hasConcept C42360764 @default.
W4386436033 hasConcept C50670333 @default.