SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3200578772> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W3200578772 endingPage "119733" @default.
W3200578772 startingPage "119733" @default.
W3200578772 abstract "• Z-scheme Ag/AgCl/Ta 2 O 5−x composites were fabricated. • The sample showed enhanced photodegradation performance. • Efficient photodegradation of other organic contaminants. • Crucial roles of oxygen vacancy defects in charge separation. • Possible degraded pathways and mechanism were proposed. Fabricating rapid and high-efficient charge-transfer pathways is contributing to improving charge separation and receiving extensive concerns in preparation of semiconductors composites photocatalysts. In this work, ternary Ag/AgCl/Ta 2 O 5−x mesocrystals were fabricated for visible-light photodegradation of emerging pollutants by introducing Ag/AgCl nanoparticles into defects engineered Ta 2 O 5−x mesocrystals. The prepared composites showed efficient visible-light absorption and efficient visible-light photodegradation of emerging pollutants, mainly attributed to the fabricating of high-efficient Z-scheme charge-transfer pathways between Ag/AgCl and Ta 2 O 5−x mesocrystals. Note that, the experimental results also demonstrated the significant roles of defects engineered Ta 2 O 5−x mesocrystals in fabricating high-efficient Z-scheme charge-transfer pathways. Besides, the prepared Ag/AgCl and Ta 2 O 5−x composites could be employed for efficient visible-light photodegradation of many other organic contaminants. Current work indicates a promising and high-performance visible-light composite photocatalyst for dealing with emerging contaminants." @default.
W3200578772 created "2021-09-27" @default.
W3200578772 creator A5015195367 @default.
W3200578772 creator A5017563992 @default.
W3200578772 creator A5022029824 @default.
W3200578772 creator A5067799795 @default.
W3200578772 creator A5088672902 @default.
W3200578772 creator A5090134488 @default.
W3200578772 date "2021-12-01" @default.
W3200578772 modified "2023-10-11" @default.
W3200578772 title "Highly enhanced photodegradation of emerging pollutants by Ag/AgCl/Ta2O5−x mesocrystals" @default.
W3200578772 cites W1988344856 @default.
W3200578772 cites W2003678890 @default.
W3200578772 cites W2020120393 @default.
W3200578772 cites W2043961251 @default.
W3200578772 cites W2072373431 @default.
W3200578772 cites W2079610758 @default.
W3200578772 cites W2085013067 @default.
W3200578772 cites W2087849323 @default.
W3200578772 cites W2128828956 @default.
W3200578772 cites W2184747448 @default.
W3200578772 cites W2329128217 @default.
W3200578772 cites W2329193068 @default.
W3200578772 cites W2329248345 @default.
W3200578772 cites W2479831500 @default.
W3200578772 cites W2522185333 @default.
W3200578772 cites W2523013722 @default.
W3200578772 cites W2531310293 @default.
W3200578772 cites W2566113330 @default.
W3200578772 cites W2605530567 @default.
W3200578772 cites W2611985593 @default.
W3200578772 cites W2620741550 @default.
W3200578772 cites W2757958765 @default.
W3200578772 cites W2762769114 @default.
W3200578772 cites W2777661425 @default.
W3200578772 cites W2782161627 @default.
W3200578772 cites W2782858029 @default.
W3200578772 cites W2790562653 @default.
W3200578772 cites W2792448442 @default.
W3200578772 cites W2792538715 @default.
W3200578772 cites W2801522966 @default.
W3200578772 cites W2803729797 @default.
W3200578772 cites W2809407140 @default.
W3200578772 cites W2884149298 @default.
W3200578772 cites W2898476044 @default.
W3200578772 cites W2900095225 @default.
W3200578772 cites W2907398680 @default.
W3200578772 cites W2913139906 @default.
W3200578772 cites W2924914905 @default.
W3200578772 cites W2944812234 @default.
W3200578772 cites W2948505809 @default.
W3200578772 cites W2952134279 @default.
W3200578772 cites W2976112639 @default.
W3200578772 cites W2979717042 @default.
W3200578772 cites W3005588183 @default.
W3200578772 cites W3006571509 @default.
W3200578772 cites W3012120203 @default.
W3200578772 cites W3037227290 @default.
W3200578772 cites W3037259832 @default.
W3200578772 cites W3044695214 @default.
W3200578772 cites W3045271661 @default.
W3200578772 cites W3082080618 @default.
W3200578772 cites W3124591471 @default.
W3200578772 cites W3131676233 @default.
W3200578772 cites W3132013923 @default.
W3200578772 cites W3135452442 @default.
W3200578772 cites W3142573098 @default.
W3200578772 cites W3157816002 @default.
W3200578772 cites W3159113120 @default.
W3200578772 cites W3159267241 @default.
W3200578772 cites W3171399994 @default.
W3200578772 cites W3182551408 @default.
W3200578772 cites W3190856672 @default.
W3200578772 cites W3192670623 @default.
W3200578772 doi "https://doi.org/10.1016/j.seppur.2021.119733" @default.
W3200578772 hasPublicationYear "2021" @default.
W3200578772 type Work @default.
W3200578772 sameAs 3200578772 @default.
W3200578772 citedByCount "28" @default.
W3200578772 countsByYear W32005787722021 @default.
W3200578772 countsByYear W32005787722022 @default.
W3200578772 countsByYear W32005787722023 @default.
W3200578772 crossrefType "journal-article" @default.
W3200578772 hasAuthorship W3200578772A5015195367 @default.
W3200578772 hasAuthorship W3200578772A5017563992 @default.
W3200578772 hasAuthorship W3200578772A5022029824 @default.
W3200578772 hasAuthorship W3200578772A5067799795 @default.
W3200578772 hasAuthorship W3200578772A5088672902 @default.
W3200578772 hasAuthorship W3200578772A5090134488 @default.
W3200578772 hasConcept C107872376 @default.
W3200578772 hasConcept C127413603 @default.
W3200578772 hasConcept C161790260 @default.
W3200578772 hasConcept C162847780 @default.
W3200578772 hasConcept C171250308 @default.
W3200578772 hasConcept C178790620 @default.
W3200578772 hasConcept C185592680 @default.
W3200578772 hasConcept C192562407 @default.
W3200578772 hasConcept C39432304 @default.