SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2898984936> ?p ?o ?g. }

Showing items 1 to 100 of ±126 with 100 items per page.

W2898984936 endingPage "286" @default.
W2898984936 startingPage "277" @default.
W2898984936 abstract "This study evaluates the application of fluorinated graphene-based water desalination membranes using molecular dynamics simulations. The studied membranes are fluorinated nanoporous graphene oxide (F–NPGO) and nanoporous graphene (F–NPG) sheets. The applied pressure, as a driving force, was used in the range of 5–150 MPa in order to transfer the water molecules through the reverse osmosis (RO) membranes. The obtained results show that the water permeability of F–NPGO membranes (G1 and G2) is much greater than that of F–NPG membranes (G3 and G4) due to the existence of hydrophilic groups on their surface. The maximum value of water permeability was obtained for the G2 system (i.e., 3345 L/(m2 hr bar)) at 150 MPa applied pressure. By fluorine functionalization of the pore edge, the passage of ions through the membrane, especially Cl− ions was prevented. This is the main issue of salt rejection performance. The minimum of obtained salt rejection percentage for F–NPGO membranes with the large pore (G2) was 94.31%, and small pore (G1) did not allow for crossing all of the ions. Many analyses such as water density map, water density profile, RDF, and PMF were computed for precisely understand and prove the performance of membrane systems." @default.
W2898984936 created "2018-11-09" @default.
W2898984936 creator A5011184020 @default.
W2898984936 creator A5054816493 @default.
W2898984936 creator A5077024305 @default.
W2898984936 date "2019-02-01" @default.
W2898984936 modified "2023-09-30" @default.
W2898984936 title "Water desalination through fluorine-functionalized nanoporous graphene oxide membranes" @default.
W2898984936 cites W1974478896 @default.
W2898984936 cites W1976499671 @default.
W2898984936 cites W1980886563 @default.
W2898984936 cites W1981225934 @default.
W2898984936 cites W1984104023 @default.
W2898984936 cites W1990410535 @default.
W2898984936 cites W1991976443 @default.
W2898984936 cites W1993177346 @default.
W2898984936 cites W1996340532 @default.
W2898984936 cites W2009383928 @default.
W2898984936 cites W2011749105 @default.
W2898984936 cites W2013194157 @default.
W2898984936 cites W2013866361 @default.
W2898984936 cites W2022950330 @default.
W2898984936 cites W2025175218 @default.
W2898984936 cites W2029667189 @default.
W2898984936 cites W2036058603 @default.
W2898984936 cites W2036675221 @default.
W2898984936 cites W2037680162 @default.
W2898984936 cites W2038222568 @default.
W2898984936 cites W2038758364 @default.
W2898984936 cites W2042136281 @default.
W2898984936 cites W2055638681 @default.
W2898984936 cites W2055645754 @default.
W2898984936 cites W2061375930 @default.
W2898984936 cites W2064367138 @default.
W2898984936 cites W2067174909 @default.
W2898984936 cites W2067765323 @default.
W2898984936 cites W2067847820 @default.
W2898984936 cites W2074567171 @default.
W2898984936 cites W2076388009 @default.
W2898984936 cites W2086932926 @default.
W2898984936 cites W2089994778 @default.
W2898984936 cites W2093196578 @default.
W2898984936 cites W2118021064 @default.
W2898984936 cites W2125248875 @default.
W2898984936 cites W2130613731 @default.
W2898984936 cites W2134387483 @default.
W2898984936 cites W2145611758 @default.
W2898984936 cites W2147764910 @default.
W2898984936 cites W2150981663 @default.
W2898984936 cites W2156053468 @default.
W2898984936 cites W2157322512 @default.
W2898984936 cites W2257939807 @default.
W2898984936 cites W2323796086 @default.
W2898984936 cites W2332136976 @default.
W2898984936 cites W2471760349 @default.
W2898984936 cites W2527596896 @default.
W2898984936 cites W2528772250 @default.
W2898984936 cites W2548677550 @default.
W2898984936 cites W2554451173 @default.
W2898984936 cites W2756204387 @default.
W2898984936 doi "https://doi.org/10.1016/j.matchemphys.2018.10.063" @default.
W2898984936 hasPublicationYear "2019" @default.
W2898984936 type Work @default.
W2898984936 sameAs 2898984936 @default.
W2898984936 citedByCount "33" @default.
W2898984936 countsByYear W28989849362019 @default.
W2898984936 countsByYear W28989849362020 @default.
W2898984936 countsByYear W28989849362021 @default.
W2898984936 countsByYear W28989849362022 @default.
W2898984936 countsByYear W28989849362023 @default.
W2898984936 crossrefType "journal-article" @default.
W2898984936 hasAuthorship W2898984936A5011184020 @default.
W2898984936 hasAuthorship W2898984936A5054816493 @default.
W2898984936 hasAuthorship W2898984936A5077024305 @default.
W2898984936 hasConcept C127413603 @default.
W2898984936 hasConcept C130797344 @default.
W2898984936 hasConcept C145148216 @default.
W2898984936 hasConcept C146763847 @default.
W2898984936 hasConcept C171250308 @default.
W2898984936 hasConcept C178790620 @default.
W2898984936 hasConcept C185592680 @default.
W2898984936 hasConcept C191897082 @default.
W2898984936 hasConcept C192562407 @default.
W2898984936 hasConcept C2776870568 @default.
W2898984936 hasConcept C2779851234 @default.
W2898984936 hasConcept C30080830 @default.
W2898984936 hasConcept C41625074 @default.
W2898984936 hasConcept C42360764 @default.
W2898984936 hasConcept C48940184 @default.
W2898984936 hasConcept C55493867 @default.
W2898984936 hasConceptScore W2898984936C127413603 @default.
W2898984936 hasConceptScore W2898984936C130797344 @default.
W2898984936 hasConceptScore W2898984936C145148216 @default.
W2898984936 hasConceptScore W2898984936C146763847 @default.
W2898984936 hasConceptScore W2898984936C171250308 @default.
W2898984936 hasConceptScore W2898984936C178790620 @default.
W2898984936 hasConceptScore W2898984936C185592680 @default.
W2898984936 hasConceptScore W2898984936C191897082 @default.