FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308346211> ?p ?o ?g. }

• W4308346211 endingPage "119477" @default.
• W4308346211 startingPage "119477" @default.
• W4308346211 abstract "In recent years, many studies have shown that nanostructures have an excellent gain effect on the performance of photodetectors (PDs). In this paper, Cu 2 O and ZnO was prepared by electrochemical and magnetron sputtering methods respectively, then the ZnO nanowire arrays (NWAs) were grown on Cu 2 O/ZnO PD by hydrothermal method. After growing ZnO nanowires (NWs), the responsivity of the Cu 2 O/ZnO PD was increased by about 16 times, and the absorption of light by PD was also greatly improved, indicating that the introduction of the NWs can effectively improve the absorption and utilization of the light by the Cu 2 O/ZnO PD. Moreover, the built-in electric field of Cu 2 O/ZnO can effectively separate electron-hole pairs and inhibit their recombination. The detection sensitivity of Cu 2 O/ZnO/ZnO NWs PD is increased by nearly 5 times, which proves that ZnO NWs have a remarkable improvement for heterojunction PDs. • Cu 2 O/ZnO PD was prepared by electrochemical method and magnetron sputtering method, then the ZnO nanowire arrays (NWAs) were grown on Cu 2 O/ZnO PD by hydrothermal method. • After growing ZnO nanowires (NWs), the responsivity of the Cu 2 O/ZnO PD was increased by about 16 times, and the absorption of light by PD is also greatly improved. 3. The introduction of the ZnO NWs can effectively improve the absorption and utilization of light to the Cu 2 O/ZnO PD. • At the same time, the built-in electric field of Cu 2 O/ZnO can effectively separate electron-hole pairs and inhibit their recombination, ZnO NWs work with built-in electric field to enhance detector optoelectronic performance. • This structure is different from the direct Cu 2 O/ZnO heterojunction structures prepared by most electrochemical methods, which not only realizes the heterogeneous contact of p-Cu 2 O/n-ZnO materials, but also makes full use of the good gain effect of nanostructures on light absorption." @default.
• W4308346211 created "2022-11-11" @default.
• W4308346211 creator A5031456457 @default.
• W4308346211 creator A5038161423 @default.
• W4308346211 creator A5088159069 @default.
• W4308346211 date "2023-02-01" @default.
• W4308346211 modified "2023-09-29" @default.
• W4308346211 title "Gaining effect of flower-like ZnO nanowire arrays on the responsivity performance of Cu2O/ZnO heterojunction photodetector" @default.
• W4308346211 cites W1930570039 @default.
• W4308346211 cites W1967652077 @default.
• W4308346211 cites W1973676427 @default.
• W4308346211 cites W1979145937 @default.
• W4308346211 cites W1987568127 @default.
• W4308346211 cites W1998645477 @default.
• W4308346211 cites W2001098288 @default.
• W4308346211 cites W2026805433 @default.
• W4308346211 cites W2030310075 @default.
• W4308346211 cites W2030456752 @default.
• W4308346211 cites W2031322088 @default.
• W4308346211 cites W2042709918 @default.
• W4308346211 cites W2048774202 @default.
• W4308346211 cites W2078010004 @default.
• W4308346211 cites W2086127427 @default.
• W4308346211 cites W2096103636 @default.
• W4308346211 cites W2121006173 @default.
• W4308346211 cites W2139300880 @default.
• W4308346211 cites W2262072985 @default.
• W4308346211 cites W2306840988 @default.
• W4308346211 cites W2511857856 @default.
• W4308346211 cites W2522473659 @default.
• W4308346211 cites W2567473163 @default.
• W4308346211 cites W2742078056 @default.
• W4308346211 cites W2769309453 @default.
• W4308346211 cites W2784965692 @default.
• W4308346211 cites W2788210690 @default.
• W4308346211 cites W2808813002 @default.
• W4308346211 cites W2921311104 @default.
• W4308346211 cites W2952928712 @default.
• W4308346211 cites W3013512063 @default.
• W4308346211 cites W3031497912 @default.
• W4308346211 cites W3042494447 @default.
• W4308346211 cites W3194659645 @default.
• W4308346211 doi "https://doi.org/10.1016/j.jlumin.2022.119477" @default.
• W4308346211 hasPublicationYear "2023" @default.
• W4308346211 type Work @default.
• W4308346211 citedByCount "2" @default.
• W4308346211 countsByYear W43083462112023 @default.
• W4308346211 crossrefType "journal-article" @default.
• W4308346211 hasAuthorship W4308346211A5031456457 @default.
• W4308346211 hasAuthorship W4308346211A5038161423 @default.
• W4308346211 hasAuthorship W4308346211A5088159069 @default.
• W4308346211 hasConcept C171250308 @default.
• W4308346211 hasConcept C178889773 @default.
• W4308346211 hasConcept C192562407 @default.
• W4308346211 hasConcept C23125352 @default.
• W4308346211 hasConcept C49040817 @default.
• W4308346211 hasConcept C74214498 @default.
• W4308346211 hasConcept C79794668 @default.
• W4308346211 hasConceptScore W4308346211C171250308 @default.
• W4308346211 hasConceptScore W4308346211C178889773 @default.
• W4308346211 hasConceptScore W4308346211C192562407 @default.
• W4308346211 hasConceptScore W4308346211C23125352 @default.
• W4308346211 hasConceptScore W4308346211C49040817 @default.
• W4308346211 hasConceptScore W4308346211C74214498 @default.
• W4308346211 hasConceptScore W4308346211C79794668 @default.
• W4308346211 hasFunder F4320335953 @default.
• W4308346211 hasLocation W43083462111 @default.
• W4308346211 hasOpenAccess W4308346211 @default.
• W4308346211 hasPrimaryLocation W43083462111 @default.
• W4308346211 hasRelatedWork W1965904061 @default.
• W4308346211 hasRelatedWork W2041650030 @default.
• W4308346211 hasRelatedWork W2155861977 @default.
• W4308346211 hasRelatedWork W2779062067 @default.
• W4308346211 hasRelatedWork W3015658316 @default.
• W4308346211 hasRelatedWork W3124168699 @default.
• W4308346211 hasRelatedWork W3187725580 @default.
• W4308346211 hasRelatedWork W3206018126 @default.
• W4308346211 hasRelatedWork W4295852096 @default.
• W4308346211 hasRelatedWork W4310670581 @default.
• W4308346211 hasVolume "254" @default.
• W4308346211 isParatext "false" @default.
• W4308346211 isRetracted "false" @default.
• W4308346211 workType "article" @default.