SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3209089802> ?p ?o ?g. }

Showing items 1 to 100 of ±161 with 100 items per page.

W3209089802 endingPage "151182" @default.
W3209089802 startingPage "151182" @default.
W3209089802 abstract "Fenton-like catalysts represent a family of promising materials to degrade micropollutants from contaminated water. However, the practical applications of Fenton-like catalysts are mainly limited by low catalytic degradation efficiency and stability. Herein, for the first time, rapid fabrication of Ag-decorated Fe3O4/polydopamine (FPA) microspheres was achieved via the help of UV irradiation, and the designed FPA microspheres were employed as Fenton-like catalysts to degrade micropollutants. Results showed that UV irradiation could activate the generation of the polydopamine shell and accelerate the Ag deposition, which played a crucial role in the rapid synthesis of highly active and stable FPA catalysts. Relative to reported catalysts, these FPA microspheres exhibited outstanding catalytic degradation performance, achieving 94.38% removal of tetracycline within 60 min. This work will provide a convenient strategy in the sustainable and efficient purification of wastewater to improve the quality of human life." @default.
W3209089802 created "2021-11-08" @default.
W3209089802 creator A5022259259 @default.
W3209089802 creator A5036614222 @default.
W3209089802 creator A5048047370 @default.
W3209089802 creator A5059686406 @default.
W3209089802 creator A5066858473 @default.
W3209089802 creator A5075596275 @default.
W3209089802 creator A5078560009 @default.
W3209089802 creator A5088558075 @default.
W3209089802 date "2022-03-01" @default.
W3209089802 modified "2023-10-04" @default.
W3209089802 title "UV-assisted ultrafast construction of robust Fe3O4/polydopamine/Ag Fenton-like catalysts for highly efficient micropollutant decomposition" @default.
W3209089802 cites W169383304 @default.
W3209089802 cites W1892760339 @default.
W3209089802 cites W2055885232 @default.
W3209089802 cites W2065495079 @default.
W3209089802 cites W2092858957 @default.
W3209089802 cites W2122606788 @default.
W3209089802 cites W2170913114 @default.
W3209089802 cites W2334569301 @default.
W3209089802 cites W2345584996 @default.
W3209089802 cites W2602280749 @default.
W3209089802 cites W2782292034 @default.
W3209089802 cites W2788009719 @default.
W3209089802 cites W2789890627 @default.
W3209089802 cites W2790520421 @default.
W3209089802 cites W2802756885 @default.
W3209089802 cites W2887138069 @default.
W3209089802 cites W2890301830 @default.
W3209089802 cites W2898088232 @default.
W3209089802 cites W2921404176 @default.
W3209089802 cites W2921877958 @default.
W3209089802 cites W2924705267 @default.
W3209089802 cites W2946555884 @default.
W3209089802 cites W2946809795 @default.
W3209089802 cites W2960092883 @default.
W3209089802 cites W2961003411 @default.
W3209089802 cites W2961042645 @default.
W3209089802 cites W2964126141 @default.
W3209089802 cites W2964839395 @default.
W3209089802 cites W2969286341 @default.
W3209089802 cites W2971915661 @default.
W3209089802 cites W2973432546 @default.
W3209089802 cites W2974109403 @default.
W3209089802 cites W2974527866 @default.
W3209089802 cites W2984508026 @default.
W3209089802 cites W2986895974 @default.
W3209089802 cites W2986980342 @default.
W3209089802 cites W2998214016 @default.
W3209089802 cites W3002114018 @default.
W3209089802 cites W3004653251 @default.
W3209089802 cites W3005162578 @default.
W3209089802 cites W3005273740 @default.
W3209089802 cites W3006814228 @default.
W3209089802 cites W3017911360 @default.
W3209089802 cites W3020101523 @default.
W3209089802 cites W3020777402 @default.
W3209089802 cites W3023793259 @default.
W3209089802 cites W3024383217 @default.
W3209089802 cites W3024834108 @default.
W3209089802 cites W3025455773 @default.
W3209089802 cites W3039158281 @default.
W3209089802 cites W3044377299 @default.
W3209089802 cites W3048288578 @default.
W3209089802 cites W3048837104 @default.
W3209089802 cites W3082814109 @default.
W3209089802 cites W3082868896 @default.
W3209089802 cites W3090116547 @default.
W3209089802 cites W3093070016 @default.
W3209089802 cites W3094202261 @default.
W3209089802 cites W3104860390 @default.
W3209089802 cites W3106912571 @default.
W3209089802 cites W3113413637 @default.
W3209089802 cites W3116110317 @default.
W3209089802 cites W3126212427 @default.
W3209089802 cites W3135858207 @default.
W3209089802 cites W3136759609 @default.
W3209089802 cites W3139347838 @default.
W3209089802 cites W3169524734 @default.
W3209089802 cites W3181653743 @default.
W3209089802 cites W3183407769 @default.
W3209089802 cites W3184980248 @default.
W3209089802 doi "https://doi.org/10.1016/j.scitotenv.2021.151182" @default.
W3209089802 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34710406" @default.
W3209089802 hasPublicationYear "2022" @default.
W3209089802 type Work @default.
W3209089802 sameAs 3209089802 @default.
W3209089802 citedByCount "37" @default.
W3209089802 countsByYear W32090898022021 @default.
W3209089802 countsByYear W32090898022022 @default.
W3209089802 countsByYear W32090898022023 @default.
W3209089802 crossrefType "journal-article" @default.
W3209089802 hasAuthorship W3209089802A5022259259 @default.
W3209089802 hasAuthorship W3209089802A5036614222 @default.
W3209089802 hasAuthorship W3209089802A5048047370 @default.
W3209089802 hasAuthorship W3209089802A5059686406 @default.
W3209089802 hasAuthorship W3209089802A5066858473 @default.