SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313471350> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W4313471350 endingPage "173" @default.
W4313471350 startingPage "173" @default.
W4313471350 abstract "The use of semiconductors for bacterial photoinactivation is a promising approach that has attracted great interest in wastewater remediation. The photoinactivator Cu-TTC/ZTO/TO was synthesized by the solvothermal method from the coordination complex Cu(C3H3N3S3)3 (Cu-TTC) and the hybrid semiconductor ZnTiO3/TiO2 (ZTO/TO). In this study, the effect of photocatalyst composition/concentration as well as radiation intensity on the photoinactivation of the gram-negative bacteria Escherichia coli and the gram-positive bacteria Staphylococcus aureus in aqueous solutions was investigated. The results revealed that 25 mg/mL of photoinactivator, in a Cu-TTC:ZTO/TO molar ratio of 1:2 (w/w%) presents a higher rate of bacterial photoinactivation under simulated solar light (λ = 300-800 nm) in comparison to the individual components. The evidence of this study suggests that the presence of the Cu(C3H3N3S3)3 coordination complex in the ZnTiO3/TiO2 hybrid semiconductor would contribute to the generation of reactive oxygen species (ROS) that are essential to initiate the bacterial photoinactivation process. Finally, the results obtained allow us to predict that the Cu-TTC/ZTO/TO photocatalyst could be used for effective bacterial inactivation of E. coli and S. aureus in aqueous systems under simulated solar light." @default.
W4313471350 created "2023-01-06" @default.
W4313471350 creator A5014353391 @default.
W4313471350 creator A5059054057 @default.
W4313471350 date "2022-12-30" @default.
W4313471350 modified "2023-10-06" @default.
W4313471350 title "Novel Semiconductor Cu(C3H3N3S3)3/ZnTiO3/TiO2 for the Photoinactivation of E. coli and S. aureus under Solar Light" @default.
W4313471350 cites W1857949346 @default.
W4313471350 cites W1980835224 @default.
W4313471350 cites W2045060876 @default.
W4313471350 cites W2045388510 @default.
W4313471350 cites W2185564569 @default.
W4313471350 cites W2260779812 @default.
W4313471350 cites W2496056289 @default.
W4313471350 cites W2523215351 @default.
W4313471350 cites W2744078894 @default.
W4313471350 cites W2767724878 @default.
W4313471350 cites W2774248555 @default.
W4313471350 cites W2784015341 @default.
W4313471350 cites W2786347782 @default.
W4313471350 cites W2794036686 @default.
W4313471350 cites W2795997927 @default.
W4313471350 cites W2796257560 @default.
W4313471350 cites W2808940911 @default.
W4313471350 cites W2830779527 @default.
W4313471350 cites W2886331909 @default.
W4313471350 cites W2891985137 @default.
W4313471350 cites W2901226452 @default.
W4313471350 cites W2908281675 @default.
W4313471350 cites W2914063324 @default.
W4313471350 cites W2933161453 @default.
W4313471350 cites W2938180550 @default.
W4313471350 cites W2946162664 @default.
W4313471350 cites W2946875361 @default.
W4313471350 cites W2947906435 @default.
W4313471350 cites W2955901968 @default.
W4313471350 cites W2962520626 @default.
W4313471350 cites W2969268445 @default.
W4313471350 cites W2970638807 @default.
W4313471350 cites W2975254976 @default.
W4313471350 cites W2981500136 @default.
W4313471350 cites W2983500904 @default.
W4313471350 cites W2989853276 @default.
W4313471350 cites W2992498378 @default.
W4313471350 cites W2992661162 @default.
W4313471350 cites W2998867776 @default.
W4313471350 cites W3011697504 @default.
W4313471350 cites W3015451093 @default.
W4313471350 cites W3035368946 @default.
W4313471350 cites W3043988112 @default.
W4313471350 cites W3044495313 @default.
W4313471350 cites W3046556699 @default.
W4313471350 cites W3083209124 @default.
W4313471350 cites W3085532823 @default.
W4313471350 cites W3091185781 @default.
W4313471350 cites W3091919075 @default.
W4313471350 cites W3109709163 @default.
W4313471350 cites W3113098140 @default.
W4313471350 cites W3114453685 @default.
W4313471350 cites W3117934751 @default.
W4313471350 cites W3129005654 @default.
W4313471350 cites W3131942160 @default.
W4313471350 cites W3134845179 @default.
W4313471350 cites W3138564410 @default.
W4313471350 cites W3147188190 @default.
W4313471350 cites W3158892309 @default.
W4313471350 cites W3162850327 @default.
W4313471350 cites W3165672037 @default.
W4313471350 cites W3166828825 @default.
W4313471350 cites W3167745155 @default.
W4313471350 cites W3175233320 @default.
W4313471350 cites W3178258105 @default.
W4313471350 cites W3193366459 @default.
W4313471350 cites W3195730019 @default.
W4313471350 cites W3198321447 @default.
W4313471350 cites W3207434395 @default.
W4313471350 cites W3210146785 @default.
W4313471350 cites W3210543242 @default.
W4313471350 cites W3213416442 @default.
W4313471350 cites W4210819417 @default.
W4313471350 cites W4212784522 @default.
W4313471350 cites W4220858514 @default.
W4313471350 cites W4224100131 @default.
W4313471350 cites W4224229779 @default.
W4313471350 cites W4225248905 @default.
W4313471350 cites W4285400734 @default.
W4313471350 cites W4290052771 @default.
W4313471350 cites W4290628258 @default.
W4313471350 cites W4292551931 @default.
W4313471350 cites W4297546849 @default.
W4313471350 doi "https://doi.org/10.3390/nano13010173" @default.
W4313471350 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36616082" @default.
W4313471350 hasPublicationYear "2022" @default.
W4313471350 type Work @default.
W4313471350 citedByCount "0" @default.
W4313471350 crossrefType "journal-article" @default.
W4313471350 hasAuthorship W4313471350A5014353391 @default.
W4313471350 hasAuthorship W4313471350A5059054057 @default.