SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3005619478> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W3005619478 endingPage "126236" @default.
W3005619478 startingPage "126236" @default.
W3005619478 abstract "While polyphenol-based coating has been regarded as a promising alternative to functionalize membrane surface, it usually suffers from problems of low-efficient procedure and low utilization rate of the polyphenolic compounds, hindering its large-scale implementations. To solve these problems, this study provided a first report on inkjet printing of polyphenols (catechol (CA) or tannic acid (TA)) and sodium periodate (SP) on a polyvinylidene fluoride (PVDF) membrane to improve membrane performance. A series of analyses showed the efficient formation of homogenous films on the PVDF membrane surface and the improvement of hydrophilicity by the inkjet printing technique. The PVDF membranes decorated with the optimized polyphenolic coating exhibited a promising oil/water separation efficiency (higher than 99%) with a high average water permeation flux of 5.2 times higher than that of the pristine membrane. Meanwhile, the modified membranes illustrated a good stability under acidic conditions (pH = 2–7). The novel method proposed in this study is facile, cost-saving and environment-friendly. The advantages of the proposed method and the modified membranes demonstrated the great significance of the proposed method in practical applications." @default.
W3005619478 created "2020-02-24" @default.
W3005619478 creator A5013216002 @default.
W3005619478 creator A5022843372 @default.
W3005619478 creator A5026702959 @default.
W3005619478 creator A5033060552 @default.
W3005619478 creator A5074132454 @default.
W3005619478 creator A5077274385 @default.
W3005619478 creator A5085808550 @default.
W3005619478 date "2020-07-01" @default.
W3005619478 modified "2023-10-09" @default.
W3005619478 title "Inkjet printing assisted fabrication of polyphenol-based coating membranes for oil/water separation" @default.
W3005619478 cites W1889374168 @default.
W3005619478 cites W1891167432 @default.
W3005619478 cites W1947749409 @default.
W3005619478 cites W1975140804 @default.
W3005619478 cites W1992261751 @default.
W3005619478 cites W1995646011 @default.
W3005619478 cites W2003933098 @default.
W3005619478 cites W2022550044 @default.
W3005619478 cites W2028267971 @default.
W3005619478 cites W2053837213 @default.
W3005619478 cites W2067603306 @default.
W3005619478 cites W2071613485 @default.
W3005619478 cites W2108064844 @default.
W3005619478 cites W2108297291 @default.
W3005619478 cites W2124976710 @default.
W3005619478 cites W2166691744 @default.
W3005619478 cites W2273514431 @default.
W3005619478 cites W2319958217 @default.
W3005619478 cites W2409193225 @default.
W3005619478 cites W2416694970 @default.
W3005619478 cites W2435365399 @default.
W3005619478 cites W2548155785 @default.
W3005619478 cites W2584679338 @default.
W3005619478 cites W2593657473 @default.
W3005619478 cites W2598129333 @default.
W3005619478 cites W2606820866 @default.
W3005619478 cites W2616370131 @default.
W3005619478 cites W2751405872 @default.
W3005619478 cites W2754940108 @default.
W3005619478 cites W2755668230 @default.
W3005619478 cites W2765594204 @default.
W3005619478 cites W2769453745 @default.
W3005619478 cites W2771090235 @default.
W3005619478 cites W2789919821 @default.
W3005619478 cites W2796965352 @default.
W3005619478 cites W2808320113 @default.
W3005619478 cites W2884239678 @default.
W3005619478 cites W2892244855 @default.
W3005619478 cites W2897766157 @default.
W3005619478 cites W2900910555 @default.
W3005619478 cites W2911545183 @default.
W3005619478 cites W2912382258 @default.
W3005619478 cites W2919610926 @default.
W3005619478 cites W2921358543 @default.
W3005619478 cites W2926794590 @default.
W3005619478 cites W2932270433 @default.
W3005619478 cites W2947219315 @default.
W3005619478 cites W2947628932 @default.
W3005619478 cites W2947767306 @default.
W3005619478 cites W2969534543 @default.
W3005619478 cites W2971622111 @default.
W3005619478 cites W2972016416 @default.
W3005619478 cites W2982113574 @default.
W3005619478 cites W2982204700 @default.
W3005619478 cites W2985864624 @default.
W3005619478 cites W2986766240 @default.
W3005619478 cites W2990248824 @default.
W3005619478 cites W2997340947 @default.
W3005619478 cites W2998517214 @default.
W3005619478 cites W2999332760 @default.
W3005619478 cites W3001510121 @default.
W3005619478 cites W3002467280 @default.
W3005619478 cites W746619084 @default.
W3005619478 doi "https://doi.org/10.1016/j.chemosphere.2020.126236" @default.
W3005619478 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32088617" @default.
W3005619478 hasPublicationYear "2020" @default.
W3005619478 type Work @default.
W3005619478 sameAs 3005619478 @default.
W3005619478 citedByCount "71" @default.
W3005619478 countsByYear W30056194782020 @default.
W3005619478 countsByYear W30056194782021 @default.
W3005619478 countsByYear W30056194782022 @default.
W3005619478 countsByYear W30056194782023 @default.
W3005619478 crossrefType "journal-article" @default.
W3005619478 hasAuthorship W3005619478A5013216002 @default.
W3005619478 hasAuthorship W3005619478A5022843372 @default.
W3005619478 hasAuthorship W3005619478A5026702959 @default.
W3005619478 hasAuthorship W3005619478A5033060552 @default.
W3005619478 hasAuthorship W3005619478A5074132454 @default.
W3005619478 hasAuthorship W3005619478A5077274385 @default.
W3005619478 hasAuthorship W3005619478A5085808550 @default.
W3005619478 hasConcept C127413603 @default.
W3005619478 hasConcept C171250308 @default.
W3005619478 hasConcept C178790620 @default.
W3005619478 hasConcept C185592680 @default.
W3005619478 hasConcept C192562407 @default.