SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2505091432> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W2505091432 endingPage "15729" @default.
W2505091432 startingPage "15720" @default.
W2505091432 abstract "For the first time a ZnO nanorod-based Z-scheme heterostructure system was proposed and realized for efficient photoelectrochemical water splitting. The samples were prepared by depositing a thin layer of SnO2 on the Au surface of Au particle-decorated ZnO nanorods. For ZnO-Au-SnO2 nanorods, the embedded Au can mediate interfacial charge transfer by promoting electron transfer from the conduction band of SnO2 to the valence band of ZnO. This vectorial charge transfer resulted in the situation that the photoexcited electrons accumulated at ZnO while the photogenerated holes concentrated at SnO2, giving ZnO-Au-SnO2 substantially high redox powers. Time-resolved photoluminescence spectra suggested that the interfacial charge transfer across the ZnO/Au/SnO2 interface was significantly improved as a result of the Z-scheme charge transfer mechanism. With the substantially high redox powers and significantly improved interfacial charge transfer, ZnO-Au-SnO2 nanorods performed much better as a photoanode in photoelectrochemical water splitting than pristine ZnO, plasmonic Au-decorated ZnO and type-II SnO2-coated ZnO nanorods did. The present study has provided a viable approach to exploit Z-scheme photoanodes in the design of efficient artificial photosynthesis systems for solar energy conversion." @default.
W2505091432 created "2016-08-23" @default.
W2505091432 creator A5026007148 @default.
W2505091432 creator A5033885671 @default.
W2505091432 creator A5042216359 @default.
W2505091432 creator A5091732997 @default.
W2505091432 date "2016-01-01" @default.
W2505091432 modified "2023-09-27" @default.
W2505091432 title "ZnO–Au–SnO<sub>2</sub>Z-scheme photoanodes for remarkable photoelectrochemical water splitting" @default.
W2505091432 cites W1699069622 @default.
W2505091432 cites W1783377337 @default.
W2505091432 cites W1850793773 @default.
W2505091432 cites W1967369641 @default.
W2505091432 cites W1968488118 @default.
W2505091432 cites W1971859851 @default.
W2505091432 cites W1974494958 @default.
W2505091432 cites W1976555219 @default.
W2505091432 cites W1978078961 @default.
W2505091432 cites W1980968412 @default.
W2505091432 cites W1988344856 @default.
W2505091432 cites W1988695023 @default.
W2505091432 cites W1989703096 @default.
W2505091432 cites W1990534089 @default.
W2505091432 cites W1992464644 @default.
W2505091432 cites W1997572663 @default.
W2505091432 cites W2000729175 @default.
W2505091432 cites W2005095180 @default.
W2505091432 cites W2007280645 @default.
W2505091432 cites W2009157603 @default.
W2505091432 cites W2009316348 @default.
W2505091432 cites W2011068533 @default.
W2505091432 cites W2011981120 @default.
W2505091432 cites W2017191612 @default.
W2505091432 cites W2025806519 @default.
W2505091432 cites W2029443292 @default.
W2505091432 cites W2029797725 @default.
W2505091432 cites W2042480832 @default.
W2505091432 cites W2042492216 @default.
W2505091432 cites W2043348136 @default.
W2505091432 cites W2043961251 @default.
W2505091432 cites W2050612192 @default.
W2505091432 cites W2059688952 @default.
W2505091432 cites W2068768618 @default.
W2505091432 cites W2072096075 @default.
W2505091432 cites W2075889694 @default.
W2505091432 cites W2079357100 @default.
W2505091432 cites W2085716249 @default.
W2505091432 cites W2086127427 @default.
W2505091432 cites W2087421324 @default.
W2505091432 cites W2110106500 @default.
W2505091432 cites W2111124501 @default.
W2505091432 cites W2112381471 @default.
W2505091432 cites W2112441524 @default.
W2505091432 cites W2113682803 @default.
W2505091432 cites W2121097841 @default.
W2505091432 cites W2124882298 @default.
W2505091432 cites W2127156253 @default.
W2505091432 cites W2158255246 @default.
W2505091432 cites W2159789432 @default.
W2505091432 cites W2162060649 @default.
W2505091432 cites W2163236299 @default.
W2505091432 cites W2167455087 @default.
W2505091432 cites W2198232794 @default.
W2505091432 cites W2269242894 @default.
W2505091432 cites W2312661723 @default.
W2505091432 cites W2312716509 @default.
W2505091432 cites W2315133111 @default.
W2505091432 cites W2324105932 @default.
W2505091432 cites W2326131912 @default.
W2505091432 cites W2328961937 @default.
W2505091432 cites W2330753126 @default.
W2505091432 cites W2341189790 @default.
W2505091432 cites W2580022629 @default.
W2505091432 cites W4241456496 @default.
W2505091432 cites W657549245 @default.
W2505091432 doi "https://doi.org/10.1039/c6nr05605a" @default.
W2505091432 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27527337" @default.
W2505091432 hasPublicationYear "2016" @default.
W2505091432 type Work @default.
W2505091432 sameAs 2505091432 @default.
W2505091432 citedByCount "133" @default.
W2505091432 countsByYear W25050914322016 @default.
W2505091432 countsByYear W25050914322017 @default.
W2505091432 countsByYear W25050914322018 @default.
W2505091432 countsByYear W25050914322019 @default.
W2505091432 countsByYear W25050914322020 @default.
W2505091432 countsByYear W25050914322021 @default.
W2505091432 countsByYear W25050914322022 @default.
W2505091432 countsByYear W25050914322023 @default.
W2505091432 crossrefType "journal-article" @default.
W2505091432 hasAuthorship W2505091432A5026007148 @default.
W2505091432 hasAuthorship W2505091432A5033885671 @default.
W2505091432 hasAuthorship W2505091432A5042216359 @default.
W2505091432 hasAuthorship W2505091432A5091732997 @default.
W2505091432 hasConcept C123669783 @default.
W2505091432 hasConcept C126201875 @default.
W2505091432 hasConcept C127413603 @default.
W2505091432 hasConcept C161790260 @default.