SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4294550970> ?p ?o ?g. }

Showing items 1 to 100 of ±173 with 100 items per page.

W4294550970 endingPage "129896" @default.
W4294550970 startingPage "129896" @default.
W4294550970 abstract "A novel A/R-TiO2 NSs/NRs photoelectrode was constructed through electrodeposition of anatase TiO2 nanosheets (A-TiO2 NSs) with highly exposed {001} facet onto the 1D upright rutile TiO2 nanorods (R-TiO2 NRs). At first, A/R-TiO2 NSs/NRs exhibited enhanced adsorption of dimethyl phthalate (DMP) due to the specific recognition between Lewis acid sites of {001} facet and Lewis basic DMP. NH3-TPD and Py-IR revealed that the Lewis acidity on the {001} facet of A-TiO2 NSs was much stronger than that of R-TiO2 NRs, demonstrating superior adsorption capacity to DMP. DFT theoretical calculations coupled with in-situ ATR-FTIR spectra were performed to investigate the binding adsorption behavior of DMP on A/R-TiO2 NSs/NRs. Secondly, the rapid separation of excited charges and strong oxidation of h+ were achieved by the synergistic effect of dual heterojunctions (A/R phase heterojunction and {111}/{110} facet heterojunction). The A/R-TiO2 NSs/NRs exhibited 100% degradation efficiency for the target pollutant DMP within 3 h, whose rate constant (k) was 18.02 × 10-3 min-1, 2.16 times that of pure R-TiO2 NRs. In real wastewater application, A/R-TiO2 NSs/NRs achieved 93.8% elimination of DMP during 4 h and preserved excellent stability after 5 cycles, promising a wide-range of applications in water environment remediation." @default.
W4294550970 created "2022-09-04" @default.
W4294550970 creator A5001096284 @default.
W4294550970 creator A5008923523 @default.
W4294550970 creator A5055329626 @default.
W4294550970 creator A5060640583 @default.
W4294550970 creator A5074424543 @default.
W4294550970 creator A5081280219 @default.
W4294550970 date "2023-01-01" @default.
W4294550970 modified "2023-10-17" @default.
W4294550970 title "Enhanced photoelectrocatalytic performance for degradation of dimethyl phthalate over well-designed 3D hierarchical TiO2/Ti photoelectrode coupled dual heterojunctions" @default.
W4294550970 cites W1963806481 @default.
W4294550970 cites W1976492109 @default.
W4294550970 cites W2008616587 @default.
W4294550970 cites W2012423635 @default.
W4294550970 cites W2014416516 @default.
W4294550970 cites W2017929293 @default.
W4294550970 cites W2029401435 @default.
W4294550970 cites W2029455617 @default.
W4294550970 cites W2069331291 @default.
W4294550970 cites W2070052172 @default.
W4294550970 cites W2078325715 @default.
W4294550970 cites W2116530643 @default.
W4294550970 cites W2154160736 @default.
W4294550970 cites W2165916810 @default.
W4294550970 cites W2203891618 @default.
W4294550970 cites W2261286755 @default.
W4294550970 cites W2311203695 @default.
W4294550970 cites W2481581164 @default.
W4294550970 cites W2526456333 @default.
W4294550970 cites W2608840305 @default.
W4294550970 cites W2619448346 @default.
W4294550970 cites W2712740671 @default.
W4294550970 cites W2742614236 @default.
W4294550970 cites W2779367974 @default.
W4294550970 cites W2792341438 @default.
W4294550970 cites W2802688593 @default.
W4294550970 cites W2804087626 @default.
W4294550970 cites W2890068821 @default.
W4294550970 cites W2898817007 @default.
W4294550970 cites W2903173337 @default.
W4294550970 cites W2907444649 @default.
W4294550970 cites W2912482194 @default.
W4294550970 cites W2921275266 @default.
W4294550970 cites W2947102080 @default.
W4294550970 cites W2972395501 @default.
W4294550970 cites W2973142355 @default.
W4294550970 cites W2985938094 @default.
W4294550970 cites W2996848738 @default.
W4294550970 cites W3001137467 @default.
W4294550970 cites W3005896566 @default.
W4294550970 cites W3007623907 @default.
W4294550970 cites W3013623696 @default.
W4294550970 cites W3015415622 @default.
W4294550970 cites W3021740127 @default.
W4294550970 cites W3046856679 @default.
W4294550970 cites W3049333953 @default.
W4294550970 cites W3071740318 @default.
W4294550970 cites W3082460181 @default.
W4294550970 cites W3082552256 @default.
W4294550970 cites W3087692675 @default.
W4294550970 cites W3090577590 @default.
W4294550970 cites W3111969713 @default.
W4294550970 cites W3112178446 @default.
W4294550970 cites W3153784837 @default.
W4294550970 cites W3157922014 @default.
W4294550970 cites W3161290518 @default.
W4294550970 cites W3162271452 @default.
W4294550970 cites W3176316844 @default.
W4294550970 cites W3179423501 @default.
W4294550970 cites W3186473330 @default.
W4294550970 cites W3194223901 @default.
W4294550970 cites W3201518634 @default.
W4294550970 cites W3213330554 @default.
W4294550970 cites W3216856263 @default.
W4294550970 cites W4214667295 @default.
W4294550970 cites W4214701572 @default.
W4294550970 cites W4220671366 @default.
W4294550970 cites W4220855615 @default.
W4294550970 cites W4281614646 @default.
W4294550970 doi "https://doi.org/10.1016/j.jhazmat.2022.129896" @default.
W4294550970 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36096059" @default.
W4294550970 hasPublicationYear "2023" @default.
W4294550970 type Work @default.
W4294550970 citedByCount "7" @default.
W4294550970 countsByYear W42945509702022 @default.
W4294550970 countsByYear W42945509702023 @default.
W4294550970 crossrefType "journal-article" @default.
W4294550970 hasAuthorship W4294550970A5001096284 @default.
W4294550970 hasAuthorship W4294550970A5008923523 @default.
W4294550970 hasAuthorship W4294550970A5055329626 @default.
W4294550970 hasAuthorship W4294550970A5060640583 @default.
W4294550970 hasAuthorship W4294550970A5074424543 @default.
W4294550970 hasAuthorship W4294550970A5081280219 @default.
W4294550970 hasConcept C126201875 @default.
W4294550970 hasConcept C127413603 @default.
W4294550970 hasConcept C13965031 @default.
W4294550970 hasConcept C147789679 @default.