SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2784163969> ?p ?o ?g. }

Showing items 1 to 100 of ±175 with 100 items per page.

W2784163969 endingPage "1918" @default.
W2784163969 startingPage "1905" @default.
W2784163969 abstract "The detachment process of an oil molecular layer situated above a horizontal substrate was often described by a three-stage process. In this mechanism, the penetration and diffusion of water molecules between the oil phase and the substrate was proposed to be a crucial step to aid in removal of oil layer/drops from substrate. In this work, the detachment process of a two-dimensional alkane molecule layer from a silica surface in aqueous surfactant solutions is studied by means of molecular dynamics (MD) simulations. By tuning the polarity of model silica surfaces, as well as considering the different types of surfactant molecules and the water flow effects, more details about the formation of water molecular channel and the expansion processes are elucidated. It is found that for both ionic and nonionic type surfactant solutions, the perturbation of surfactant molecules on the two-dimensional oil molecule layer facilitates the injection and diffusion of water molecules between the oil layer and silica substrate. However, the water channel formation and expansion speed is strongly affected by the substrate polarity and properties of surfactant molecules. First, only for the silica surface with relative stronger polarity, the formation of water molecular channel is observed. Second, the expansion speed of the water molecular channel upon the ionic surfactant (dodecyl trimethylammonium bromide, DTAB and sodium dodecyl benzenesulfonate, SDBS) flooding is more rapidly than the nonionic surfactant system (octylphenol polyoxyethylene(10) ether, OP-10). Third, the water flow speed may also affect the injection and diffusion of water molecules. These simulation results indicate that the water molecular channel formation process is affected by multiple factors. The synergistic effects of perturbation of surfactant molecules and the electrostatic interactions between silica substrate and water molecules are two key factors aiding in the injection and diffusion of water molecules and helpful for the oil detachment from silica substrate." @default.
W2784163969 created "2018-01-26" @default.
W2784163969 creator A5022391443 @default.
W2784163969 creator A5031172482 @default.
W2784163969 creator A5034069544 @default.
W2784163969 creator A5036614807 @default.
W2784163969 creator A5040543783 @default.
W2784163969 creator A5051146702 @default.
W2784163969 creator A5055151897 @default.
W2784163969 creator A5058863046 @default.
W2784163969 creator A5067590443 @default.
W2784163969 creator A5073769384 @default.
W2784163969 creator A5090577152 @default.
W2784163969 date "2018-02-06" @default.
W2784163969 modified "2023-10-12" @default.
W2784163969 title "Molecular Dynamics Simulations of the Oil-Detachment from the Hydroxylated Silica Surface: Effects of Surfactants, Electrostatic Interactions, and Water Flows on the Water Molecular Channel Formation" @default.
W2784163969 cites W1022620687 @default.
W2784163969 cites W1672666614 @default.
W2784163969 cites W1791541834 @default.
W2784163969 cites W1826789896 @default.
W2784163969 cites W1993709245 @default.
W2784163969 cites W1995764608 @default.
W2784163969 cites W2004389002 @default.
W2784163969 cites W2005464007 @default.
W2784163969 cites W2012176277 @default.
W2784163969 cites W2015296948 @default.
W2784163969 cites W2019465613 @default.
W2784163969 cites W2025684451 @default.
W2784163969 cites W2033444027 @default.
W2784163969 cites W2045325334 @default.
W2784163969 cites W2046862135 @default.
W2784163969 cites W2048528565 @default.
W2784163969 cites W2049475242 @default.
W2784163969 cites W2059553991 @default.
W2784163969 cites W2062382514 @default.
W2784163969 cites W2065576355 @default.
W2784163969 cites W2065800416 @default.
W2784163969 cites W2070009212 @default.
W2784163969 cites W2072976471 @default.
W2784163969 cites W2078276757 @default.
W2784163969 cites W2079100888 @default.
W2784163969 cites W2080417377 @default.
W2784163969 cites W2084144234 @default.
W2784163969 cites W2085717259 @default.
W2784163969 cites W2090078301 @default.
W2784163969 cites W2091327130 @default.
W2784163969 cites W2091654157 @default.
W2784163969 cites W2092779806 @default.
W2784163969 cites W2096746072 @default.
W2784163969 cites W2100816704 @default.
W2784163969 cites W2134530580 @default.
W2784163969 cites W2141176832 @default.
W2784163969 cites W2165576016 @default.
W2784163969 cites W2230876546 @default.
W2784163969 cites W2239929827 @default.
W2784163969 cites W2276631422 @default.
W2784163969 cites W2315830290 @default.
W2784163969 cites W2316932441 @default.
W2784163969 cites W2319434664 @default.
W2784163969 cites W2320349803 @default.
W2784163969 cites W2322293543 @default.
W2784163969 cites W2324214258 @default.
W2784163969 cites W2326285473 @default.
W2784163969 cites W2326585026 @default.
W2784163969 cites W2335199145 @default.
W2784163969 cites W2471756509 @default.
W2784163969 cites W2483432740 @default.
W2784163969 cites W2529735887 @default.
W2784163969 cites W2551611133 @default.
W2784163969 cites W2566142891 @default.
W2784163969 cites W2585764855 @default.
W2784163969 cites W2606635555 @default.
W2784163969 cites W2761259957 @default.
W2784163969 cites W920285477 @default.
W2784163969 doi "https://doi.org/10.1021/acs.jpcb.7b09716" @default.
W2784163969 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29337552" @default.
W2784163969 hasPublicationYear "2018" @default.
W2784163969 type Work @default.
W2784163969 sameAs 2784163969 @default.
W2784163969 citedByCount "37" @default.
W2784163969 countsByYear W27841639692018 @default.
W2784163969 countsByYear W27841639692019 @default.
W2784163969 countsByYear W27841639692020 @default.
W2784163969 countsByYear W27841639692021 @default.
W2784163969 countsByYear W27841639692022 @default.
W2784163969 countsByYear W27841639692023 @default.
W2784163969 crossrefType "journal-article" @default.
W2784163969 hasAuthorship W2784163969A5022391443 @default.
W2784163969 hasAuthorship W2784163969A5031172482 @default.
W2784163969 hasAuthorship W2784163969A5034069544 @default.
W2784163969 hasAuthorship W2784163969A5036614807 @default.
W2784163969 hasAuthorship W2784163969A5040543783 @default.
W2784163969 hasAuthorship W2784163969A5051146702 @default.
W2784163969 hasAuthorship W2784163969A5055151897 @default.
W2784163969 hasAuthorship W2784163969A5058863046 @default.
W2784163969 hasAuthorship W2784163969A5067590443 @default.
W2784163969 hasAuthorship W2784163969A5073769384 @default.
W2784163969 hasAuthorship W2784163969A5090577152 @default.