SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4385304161> ?p ?o ?g. }

Showing items 1 to 100 of ±159 with 100 items per page.

W4385304161 endingPage "124656" @default.
W4385304161 startingPage "124656" @default.
W4385304161 abstract "Brackish water desalination based on nanofiltration (NF) has been regarded as a feasible solution to address the scarcity of freshwater. However, the trade-off effect and membrane fouling are challenges for the thin-film composite NF membranes, restricting their further application in desalination. Herein, modified thin-film nanocomposite (TFN) membranes were constructed with molybdenum disulfide (MoS2) nanosheets incorporated either into the polyamide layer (P-TFN) or as an interlayer (I-TFN). The surface morphology, chemical element, electronegativity, pore size, hydrophilicity, separation performance and antifouling property of the membranes were systematically evaluated and compared. The P-TFN membrane exhibited superior salt rejection of Na2SO4 up to 98.4% and preeminent flux recovery ratios (FRRs) of 95.4% and 92.2% for humic acid (HA) and bovine serum albumin (BSA) filtration, respectively, which possessed high electronegativity and small effective pore size. While, without compromising its salt retention and foulant resistance, the I-TFN membrane exhibited 51% better permeability than the control TFC membrane, due to its unique crumpled structure of the PA layer and the “dragging effect” of the interlayer on water molecules. Furthermore, we elaborated on the mechanism underlying the differences in surface properties, and verified the effectiveness of the modified membranes in authentic brackish water desalination. Significantly, the comparison provides novel insight for the customization and regulation of the PA layer." @default.
W4385304161 created "2023-07-28" @default.
W4385304161 creator A5013095316 @default.
W4385304161 creator A5013555971 @default.
W4385304161 creator A5027434590 @default.
W4385304161 creator A5056214066 @default.
W4385304161 creator A5069748637 @default.
W4385304161 date "2023-11-01" @default.
W4385304161 modified "2023-09-26" @default.
W4385304161 title "Role of molybdenum disulfide (MoS2) nanosheets doping position on the thin-film nanocomposite (TFN) membrane during brackish water treatment" @default.
W4385304161 cites W1436861746 @default.
W4385304161 cites W1737122892 @default.
W4385304161 cites W1973058439 @default.
W4385304161 cites W1974800352 @default.
W4385304161 cites W1977421070 @default.
W4385304161 cites W1981539053 @default.
W4385304161 cites W1990418419 @default.
W4385304161 cites W1992780317 @default.
W4385304161 cites W1997827564 @default.
W4385304161 cites W2004911079 @default.
W4385304161 cites W2015734357 @default.
W4385304161 cites W2036910250 @default.
W4385304161 cites W2044671946 @default.
W4385304161 cites W2045492376 @default.
W4385304161 cites W2047850721 @default.
W4385304161 cites W2055638681 @default.
W4385304161 cites W2067875097 @default.
W4385304161 cites W2083546755 @default.
W4385304161 cites W2122840059 @default.
W4385304161 cites W2178019487 @default.
W4385304161 cites W2238188464 @default.
W4385304161 cites W2257939807 @default.
W4385304161 cites W2275876534 @default.
W4385304161 cites W2336688700 @default.
W4385304161 cites W2341086555 @default.
W4385304161 cites W2413889941 @default.
W4385304161 cites W2468762000 @default.
W4385304161 cites W2474998618 @default.
W4385304161 cites W2528261708 @default.
W4385304161 cites W2605099964 @default.
W4385304161 cites W2607244828 @default.
W4385304161 cites W2730668365 @default.
W4385304161 cites W2759887254 @default.
W4385304161 cites W2765125121 @default.
W4385304161 cites W2770321568 @default.
W4385304161 cites W2773281236 @default.
W4385304161 cites W2775310969 @default.
W4385304161 cites W2785951653 @default.
W4385304161 cites W2791492850 @default.
W4385304161 cites W2796574422 @default.
W4385304161 cites W2797503526 @default.
W4385304161 cites W2803058542 @default.
W4385304161 cites W2882993402 @default.
W4385304161 cites W2885469859 @default.
W4385304161 cites W2889416006 @default.
W4385304161 cites W2891943508 @default.
W4385304161 cites W2896600806 @default.
W4385304161 cites W2919594832 @default.
W4385304161 cites W2925208563 @default.
W4385304161 cites W2942099795 @default.
W4385304161 cites W2946218647 @default.
W4385304161 cites W2966193397 @default.
W4385304161 cites W2980167149 @default.
W4385304161 cites W2982030414 @default.
W4385304161 cites W2998752639 @default.
W4385304161 cites W3007695034 @default.
W4385304161 cites W3007711255 @default.
W4385304161 cites W3008111357 @default.
W4385304161 cites W3012038476 @default.
W4385304161 cites W3026603573 @default.
W4385304161 cites W3027281749 @default.
W4385304161 cites W3034437904 @default.
W4385304161 cites W3037933514 @default.
W4385304161 cites W3038326451 @default.
W4385304161 cites W3043585743 @default.
W4385304161 cites W3045039171 @default.
W4385304161 cites W3046286443 @default.
W4385304161 cites W3048732052 @default.
W4385304161 cites W3049449977 @default.
W4385304161 cites W3049747746 @default.
W4385304161 cites W3081299705 @default.
W4385304161 cites W3081381239 @default.
W4385304161 cites W3088005049 @default.
W4385304161 cites W3093099073 @default.
W4385304161 cites W3103374413 @default.
W4385304161 cites W3125902593 @default.
W4385304161 cites W3143797166 @default.
W4385304161 cites W3158203386 @default.
W4385304161 cites W3175713107 @default.
W4385304161 cites W3185956648 @default.
W4385304161 cites W3197554040 @default.
W4385304161 cites W3198531924 @default.
W4385304161 cites W4200584743 @default.
W4385304161 cites W4221116658 @default.
W4385304161 doi "https://doi.org/10.1016/j.seppur.2023.124656" @default.
W4385304161 hasPublicationYear "2023" @default.
W4385304161 type Work @default.
W4385304161 citedByCount "0" @default.