FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3210447199> ?p ?o ?g. }

• W3210447199 endingPage "110443" @default.
• W3210447199 startingPage "110443" @default.
• W3210447199 abstract "Doping graphene with fluorine atoms could increase the capacitance of graphene and promote the migration of ions and electrons, thereby increasing electrocatalytic activity. For energy conservation and environmental protection, fluorine-doped graphene oxide was made by an effective solvothermal method and then used as a cathode for acetaminophen (APAP) degradation under constant current and pulse current supply. Unexpectedly, the removal rate of APAP was the same under constant current and pulse current supply within 120 min. To clarify the underlying mechanism under constant current and pulse current supply, various active species generated during the reaction were analyzed. It was found that the different functional active species contributed to the efficiency under constant current and pulse current supply. O2•− and chloride reactive species were favorably generated during constant current supply and oxidized APAP, whereas •OH played a critical role in APAP oxidation without current supply. Two possible routes for APAP degradation are proposed under constant current and pulsed current supply. This research first uses the synergic effect of the electron storage capacity and the electrocatalytic capability of fluorine-doped graphene oxide for pollution degradation, and deepens the understanding of fluorine doping for the electrochemical catalytic oxidation of APAP." @default.
• W3210447199 created "2021-11-08" @default.
• W3210447199 creator A5018947190 @default.
• W3210447199 creator A5021519475 @default.
• W3210447199 creator A5045728477 @default.
• W3210447199 creator A5076757882 @default.
• W3210447199 creator A5085948330 @default.
• W3210447199 date "2022-02-01" @default.
• W3210447199 modified "2023-09-24" @default.
• W3210447199 title "Electrocatalytic degradation of acetaminophen by fluorine-doped graphene oxide: Efficiency and mechanism under constant current and pulse current supply" @default.
• W3210447199 cites W1123190761 @default.
• W3210447199 cites W1964156215 @default.
• W3210447199 cites W1964422458 @default.
• W3210447199 cites W1972761826 @default.
• W3210447199 cites W1974700094 @default.
• W3210447199 cites W1976156337 @default.
• W3210447199 cites W1980586755 @default.
• W3210447199 cites W1988425930 @default.
• W3210447199 cites W1993017167 @default.
• W3210447199 cites W1997412285 @default.
• W3210447199 cites W2001684156 @default.
• W3210447199 cites W2013423674 @default.
• W3210447199 cites W2015673981 @default.
• W3210447199 cites W2024256830 @default.
• W3210447199 cites W2027322558 @default.
• W3210447199 cites W2031670446 @default.
• W3210447199 cites W2034943601 @default.
• W3210447199 cites W2036239098 @default.
• W3210447199 cites W2041314880 @default.
• W3210447199 cites W2049442302 @default.
• W3210447199 cites W2051051764 @default.
• W3210447199 cites W2051632517 @default.
• W3210447199 cites W2055172942 @default.
• W3210447199 cites W2058010120 @default.
• W3210447199 cites W2065819992 @default.
• W3210447199 cites W2070199888 @default.
• W3210447199 cites W2074493415 @default.
• W3210447199 cites W2075516929 @default.
• W3210447199 cites W2078349355 @default.
• W3210447199 cites W2080787145 @default.
• W3210447199 cites W2084350317 @default.
• W3210447199 cites W2085519580 @default.
• W3210447199 cites W2089924599 @default.
• W3210447199 cites W2101467353 @default.
• W3210447199 cites W2108262236 @default.
• W3210447199 cites W2124473547 @default.
• W3210447199 cites W2125449488 @default.
• W3210447199 cites W2134459686 @default.
• W3210447199 cites W2137490554 @default.
• W3210447199 cites W2140746165 @default.
• W3210447199 cites W2143578098 @default.
• W3210447199 cites W2153119384 @default.
• W3210447199 cites W2157202716 @default.
• W3210447199 cites W2195944693 @default.
• W3210447199 cites W2203309456 @default.
• W3210447199 cites W2233937869 @default.
• W3210447199 cites W2311418363 @default.
• W3210447199 cites W2317925649 @default.
• W3210447199 cites W2331597873 @default.
• W3210447199 cites W2336758593 @default.
• W3210447199 cites W2412466448 @default.
• W3210447199 cites W2470079593 @default.
• W3210447199 cites W2475110889 @default.
• W3210447199 cites W2497715354 @default.
• W3210447199 cites W2610935742 @default.
• W3210447199 cites W2612065674 @default.
• W3210447199 cites W2622869948 @default.
• W3210447199 cites W2755162714 @default.
• W3210447199 cites W2760604147 @default.
• W3210447199 cites W2782216341 @default.
• W3210447199 cites W2783860815 @default.
• W3210447199 cites W2791592344 @default.
• W3210447199 cites W2794043542 @default.
• W3210447199 cites W2807801510 @default.
• W3210447199 cites W2904542331 @default.
• W3210447199 cites W2989343370 @default.
• W3210447199 cites W3011264979 @default.
• W3210447199 cites W3025899864 @default.
• W3210447199 cites W3044232881 @default.
• W3210447199 doi "https://doi.org/10.1016/j.jpcs.2021.110443" @default.
• W3210447199 hasPublicationYear "2022" @default.
• W3210447199 type Work @default.
• W3210447199 sameAs 3210447199 @default.
• W3210447199 citedByCount "7" @default.
• W3210447199 countsByYear W32104471992022 @default.
• W3210447199 countsByYear W32104471992023 @default.
• W3210447199 crossrefType "journal-article" @default.
• W3210447199 hasAuthorship W3210447199A5018947190 @default.
• W3210447199 hasAuthorship W3210447199A5021519475 @default.
• W3210447199 hasAuthorship W3210447199A5045728477 @default.
• W3210447199 hasAuthorship W3210447199A5076757882 @default.
• W3210447199 hasAuthorship W3210447199A5085948330 @default.
• W3210447199 hasConcept C119599485 @default.
• W3210447199 hasConcept C127413603 @default.
• W3210447199 hasConcept C148043351 @default.
• W3210447199 hasConcept C171250308 @default.
• W3210447199 hasConcept C178790620 @default.
• W3210447199 hasConcept C179104552 @default.

• next