SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3129146710> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W3129146710 endingPage "118463" @default.
W3129146710 startingPage "118463" @default.
W3129146710 abstract "The convenient and efficient anodic oxidation method was used to grow TiO2 nanotubes (NTs) on Ti sheets as the substrate, and then ultrathin MoS2 nanosheets were assembled on TiO2 NTs to construct flower-like structure composite photocatalyst in the hydrothermal process. The abundant reactive centers in the photocatalytic reaction were attributed to the thinness and wrinkling of MoS2 nanosheets. The superior carrier separation and migration capacity of the photocatalyst was verified by electrochemical characterization and photoluminescence spectroscopy analysis. The loading amount effect of MoS2 on the degradation efficiency of RhB and MB was explored. Evidently, the ability of the photocatalyst to degrade pollutants was significantly improved, and the optimal degradation efficiency of RhB and MB reached 76.33% and 100%, respectively. Assisted by adding sacrificial agent and external voltage, the outstanding photocatalytic hydrogen evolution was detected, and the optimal H2 production could reach 900.9 μmol. The mechanism of pollutant removal and hydrogen generation by TiO2 NTs/MoS2 heterojunction was proposed and analyzed based on the energy band structure and free radical capture experiments of photocatalysts." @default.
W3129146710 created "2021-02-15" @default.
W3129146710 creator A5006651636 @default.
W3129146710 creator A5020268609 @default.
W3129146710 creator A5050025983 @default.
W3129146710 creator A5056909383 @default.
W3129146710 creator A5066798089 @default.
W3129146710 creator A5067016186 @default.
W3129146710 creator A5075817970 @default.
W3129146710 creator A5090856797 @default.
W3129146710 date "2021-06-01" @default.
W3129146710 modified "2023-10-14" @default.
W3129146710 title "Hydrothermal construction of flower-like MoS2 on TiO2 NTs for highly efficient environmental remediation and photocatalytic hydrogen evolution" @default.
W3129146710 cites W1158128292 @default.
W3129146710 cites W1996307985 @default.
W3129146710 cites W2027464856 @default.
W3129146710 cites W2041142631 @default.
W3129146710 cites W2092215871 @default.
W3129146710 cites W2111552259 @default.
W3129146710 cites W2209642129 @default.
W3129146710 cites W2292424991 @default.
W3129146710 cites W2298173741 @default.
W3129146710 cites W2334143164 @default.
W3129146710 cites W2340536000 @default.
W3129146710 cites W2341402692 @default.
W3129146710 cites W2344044392 @default.
W3129146710 cites W2395342497 @default.
W3129146710 cites W2410798397 @default.
W3129146710 cites W2472124019 @default.
W3129146710 cites W2512702315 @default.
W3129146710 cites W2522500173 @default.
W3129146710 cites W2523161391 @default.
W3129146710 cites W2562187554 @default.
W3129146710 cites W2571824444 @default.
W3129146710 cites W2586797430 @default.
W3129146710 cites W2589587002 @default.
W3129146710 cites W2600996057 @default.
W3129146710 cites W2623903607 @default.
W3129146710 cites W2763525349 @default.
W3129146710 cites W2764003394 @default.
W3129146710 cites W2777109607 @default.
W3129146710 cites W2782401809 @default.
W3129146710 cites W2790377082 @default.
W3129146710 cites W2790948862 @default.
W3129146710 cites W2791544737 @default.
W3129146710 cites W2795348885 @default.
W3129146710 cites W2883391438 @default.
W3129146710 cites W2887535418 @default.
W3129146710 cites W2891002794 @default.
W3129146710 cites W2895551353 @default.
W3129146710 cites W2901823639 @default.
W3129146710 cites W2905336776 @default.
W3129146710 cites W2906538399 @default.
W3129146710 cites W2910230156 @default.
W3129146710 cites W2911163965 @default.
W3129146710 cites W2914461798 @default.
W3129146710 cites W2920843580 @default.
W3129146710 cites W2925416586 @default.
W3129146710 cites W2942788317 @default.
W3129146710 cites W2944448552 @default.
W3129146710 cites W2946234228 @default.
W3129146710 cites W2946992377 @default.
W3129146710 cites W2947695545 @default.
W3129146710 cites W2947822594 @default.
W3129146710 cites W2949291522 @default.
W3129146710 cites W2952284470 @default.
W3129146710 cites W2968990688 @default.
W3129146710 cites W2971249378 @default.
W3129146710 cites W2987871368 @default.
W3129146710 cites W2992134065 @default.
W3129146710 cites W3003433694 @default.
W3129146710 cites W3008191314 @default.
W3129146710 cites W3024064983 @default.
W3129146710 cites W3025558712 @default.
W3129146710 cites W3027251549 @default.
W3129146710 cites W3027337169 @default.
W3129146710 cites W3028168062 @default.
W3129146710 cites W3034568891 @default.
W3129146710 cites W3037366197 @default.
W3129146710 cites W3049700736 @default.
W3129146710 cites W3087488131 @default.
W3129146710 cites W3088704570 @default.
W3129146710 cites W3093283354 @default.
W3129146710 doi "https://doi.org/10.1016/j.seppur.2021.118463" @default.
W3129146710 hasPublicationYear "2021" @default.
W3129146710 type Work @default.
W3129146710 sameAs 3129146710 @default.
W3129146710 citedByCount "50" @default.
W3129146710 countsByYear W31291467102021 @default.
W3129146710 countsByYear W31291467102022 @default.
W3129146710 countsByYear W31291467102023 @default.
W3129146710 crossrefType "journal-article" @default.
W3129146710 hasAuthorship W3129146710A5006651636 @default.
W3129146710 hasAuthorship W3129146710A5020268609 @default.
W3129146710 hasAuthorship W3129146710A5050025983 @default.
W3129146710 hasAuthorship W3129146710A5056909383 @default.
W3129146710 hasAuthorship W3129146710A5066798089 @default.
W3129146710 hasAuthorship W3129146710A5067016186 @default.