SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313644888> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W4313644888 endingPage "122387" @default.
W4313644888 startingPage "122387" @default.
W4313644888 abstract "The inherent advantages of 2D/2D S-scheme heterojunction contribute well to the photocatalysis due to efficient carriers’ separation kinetics and maintained redox ability. However, single 2D/2D S-scheme heterostructure fails to realize a perfect energy band alignment since the material contact interface is not perfectly contacted in real circumstance because of surface roughness and flexibility of 2D material. Herein, the 0D/2D Schottky junction synergies with S-scheme (S-S strategy) is proposed to improve weak links above. 0D Quasi CNQDs are utilized in 2D/2D S-scheme TCN/ZnIn2S4 to optimize the carriers’ separation kinetics in some area without 2D/2D close contact for TCN/ZnIn2S4. SI-XPS, UPS, and KPFM etc confirms such electron state. The CNQDs/TCN/ZnIn2S4 photocatalysts exhibits high degree of dissociation efficiency of photoinduced excitons due to S-S strategy. The results testify construction of S-S heterostructure would be an effective strategy for carriers’ modulation, and it will be a promising candidate for “green” elimination of oil spill on water surface." @default.
W4313644888 created "2023-01-07" @default.
W4313644888 creator A5006475665 @default.
W4313644888 creator A5018720181 @default.
W4313644888 creator A5019290469 @default.
W4313644888 creator A5027343112 @default.
W4313644888 creator A5028918261 @default.
W4313644888 creator A5050917055 @default.
W4313644888 creator A5059010527 @default.
W4313644888 creator A5067289993 @default.
W4313644888 creator A5080670453 @default.
W4313644888 creator A5081411724 @default.
W4313644888 creator A5087762384 @default.
W4313644888 creator A5090875147 @default.
W4313644888 creator A5091510615 @default.
W4313644888 date "2023-05-01" @default.
W4313644888 modified "2023-10-16" @default.
W4313644888 title "0D/2D Schottky junction synergies with 2D/2D S-scheme heterojunction strategy to achieve uniform separation of carriers in 0D/2D/2D quasi CNQDs/TCN/ZnIn2S4 towards photocatalytic remediating petroleum hydrocarbons polluted marine" @default.
W4313644888 cites W1968199158 @default.
W4313644888 cites W2045182411 @default.
W4313644888 cites W2083091661 @default.
W4313644888 cites W2116530643 @default.
W4313644888 cites W2129691811 @default.
W4313644888 cites W2401906193 @default.
W4313644888 cites W2782678818 @default.
W4313644888 cites W2794692883 @default.
W4313644888 cites W2886723842 @default.
W4313644888 cites W2900199409 @default.
W4313644888 cites W2912188752 @default.
W4313644888 cites W2938629155 @default.
W4313644888 cites W2942155067 @default.
W4313644888 cites W2972682126 @default.
W4313644888 cites W2980752452 @default.
W4313644888 cites W2985402737 @default.
W4313644888 cites W2987714749 @default.
W4313644888 cites W2999998096 @default.
W4313644888 cites W3012623443 @default.
W4313644888 cites W3021901635 @default.
W4313644888 cites W3036413810 @default.
W4313644888 cites W3037259832 @default.
W4313644888 cites W3108950342 @default.
W4313644888 cites W3127209431 @default.
W4313644888 cites W3144488715 @default.
W4313644888 cites W3158654224 @default.
W4313644888 cites W3159616326 @default.
W4313644888 cites W3159817734 @default.
W4313644888 cites W3167965396 @default.
W4313644888 cites W3192217444 @default.
W4313644888 cites W3200653346 @default.
W4313644888 cites W3201722521 @default.
W4313644888 cites W3207084205 @default.
W4313644888 cites W3207457552 @default.
W4313644888 cites W4200125416 @default.
W4313644888 cites W4200169189 @default.
W4313644888 cites W4200275275 @default.
W4313644888 cites W4200369784 @default.
W4313644888 cites W4205187776 @default.
W4313644888 cites W4210526368 @default.
W4313644888 cites W4210893179 @default.
W4313644888 cites W4212906708 @default.
W4313644888 cites W4220737987 @default.
W4313644888 cites W4220887042 @default.
W4313644888 cites W4220970977 @default.
W4313644888 cites W4220987024 @default.
W4313644888 cites W4225725706 @default.
W4313644888 cites W4229038859 @default.
W4313644888 cites W4229043708 @default.
W4313644888 cites W4280508732 @default.
W4313644888 cites W4281257664 @default.
W4313644888 cites W4281660121 @default.
W4313644888 cites W4285606818 @default.
W4313644888 cites W4297053068 @default.
W4313644888 doi "https://doi.org/10.1016/j.apcatb.2023.122387" @default.
W4313644888 hasPublicationYear "2023" @default.
W4313644888 type Work @default.
W4313644888 citedByCount "10" @default.
W4313644888 countsByYear W43136448882023 @default.
W4313644888 crossrefType "journal-article" @default.
W4313644888 hasAuthorship W4313644888A5006475665 @default.
W4313644888 hasAuthorship W4313644888A5018720181 @default.
W4313644888 hasAuthorship W4313644888A5019290469 @default.
W4313644888 hasAuthorship W4313644888A5027343112 @default.
W4313644888 hasAuthorship W4313644888A5028918261 @default.
W4313644888 hasAuthorship W4313644888A5050917055 @default.
W4313644888 hasAuthorship W4313644888A5059010527 @default.
W4313644888 hasAuthorship W4313644888A5067289993 @default.
W4313644888 hasAuthorship W4313644888A5080670453 @default.
W4313644888 hasAuthorship W4313644888A5081411724 @default.
W4313644888 hasAuthorship W4313644888A5087762384 @default.
W4313644888 hasAuthorship W4313644888A5090875147 @default.
W4313644888 hasAuthorship W4313644888A5091510615 @default.
W4313644888 hasConcept C127413603 @default.
W4313644888 hasConcept C16115445 @default.
W4313644888 hasConcept C161790260 @default.
W4313644888 hasConcept C171250308 @default.
W4313644888 hasConcept C175708663 @default.
W4313644888 hasConcept C185592680 @default.
W4313644888 hasConcept C192562407 @default.