SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3003877293> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W3003877293 endingPage "175" @default.
W3003877293 startingPage "175" @default.
W3003877293 abstract "Due to their outstanding surface-to-volume ratio, highly smooth surface, and well-defined crystal boundary, semiconducting micro-/nanocrystals have been used as a pivotal platform to fabricate multifunctional optoelectronic devices, such as superresolution imaging devices, solar concentrators, photodetectors, light-emitting diodes (LEDs), and lasers. In particular, micro-/nanocrystals as key elements can be employed to tailor the fundamental optical and electronic transport properties of integrated hetero-/homostructures. Herein, ZnO microcrystal-decorated pre-synthesized Ga-doped ZnO microwire (ZnO@ZnO:Ga MW) was prepared. The single ZnO@ZnO:Ga MW can be used to construct optically pumped Fabry–Perot (F–P) mode microlasers, with the dominating lasing peaks centered in the violet spectral region. Stabilized exciton-polariton emissions from single ZnO@ZnO:Ga MW-based heterojunction diode can also be realized. The deposited ZnO microcrystals can facilitate the strong coupling of F–P optical modes with excitons, leading to the formation of exciton-polariton features in the ZnO@ZnO:Ga MW. Therefore, the waveguiding lighting behavior and energy-band alignment of ZnO microcrystal-sheathed ZnO:Ga MW radial structures should be extremely attractive for potential applications in semiconducting microstructure-based optoelectronic devices, such as micro-LEDs, laser microcavities, waveguides, and photodetectors." @default.
W3003877293 created "2020-02-07" @default.
W3003877293 creator A5011916006 @default.
W3003877293 creator A5017852501 @default.
W3003877293 creator A5043868220 @default.
W3003877293 creator A5056651945 @default.
W3003877293 creator A5084551270 @default.
W3003877293 creator A5085324458 @default.
W3003877293 date "2020-01-31" @default.
W3003877293 modified "2023-10-14" @default.
W3003877293 title "Microcrystal modulated exciton-polariton emissions from single ZnO@ZnO:Ga microwire" @default.
W3003877293 cites W1518118881 @default.
W3003877293 cites W1602280768 @default.
W3003877293 cites W1970525765 @default.
W3003877293 cites W1978633482 @default.
W3003877293 cites W1987743598 @default.
W3003877293 cites W1992969330 @default.
W3003877293 cites W2009542643 @default.
W3003877293 cites W2012474468 @default.
W3003877293 cites W2013947804 @default.
W3003877293 cites W2016782128 @default.
W3003877293 cites W2038756205 @default.
W3003877293 cites W2043278573 @default.
W3003877293 cites W2045819827 @default.
W3003877293 cites W2049402109 @default.
W3003877293 cites W2069396125 @default.
W3003877293 cites W2115952715 @default.
W3003877293 cites W2127443063 @default.
W3003877293 cites W2153452727 @default.
W3003877293 cites W2157531301 @default.
W3003877293 cites W2164056255 @default.
W3003877293 cites W2173796305 @default.
W3003877293 cites W2237525155 @default.
W3003877293 cites W2262072985 @default.
W3003877293 cites W2292188681 @default.
W3003877293 cites W2295168435 @default.
W3003877293 cites W2321884437 @default.
W3003877293 cites W2326504181 @default.
W3003877293 cites W2331108654 @default.
W3003877293 cites W2409259258 @default.
W3003877293 cites W2422473220 @default.
W3003877293 cites W2528538111 @default.
W3003877293 cites W2535879116 @default.
W3003877293 cites W2562911332 @default.
W3003877293 cites W2573896303 @default.
W3003877293 cites W2580498825 @default.
W3003877293 cites W2592354603 @default.
W3003877293 cites W2606737705 @default.
W3003877293 cites W2607048979 @default.
W3003877293 cites W2730000732 @default.
W3003877293 cites W2736121365 @default.
W3003877293 cites W2766019941 @default.
W3003877293 cites W2777039343 @default.
W3003877293 cites W2791291366 @default.
W3003877293 cites W2793846956 @default.
W3003877293 cites W2798854189 @default.
W3003877293 cites W2802736095 @default.
W3003877293 cites W2889828760 @default.
W3003877293 cites W2890907392 @default.
W3003877293 cites W2898472714 @default.
W3003877293 cites W2909979505 @default.
W3003877293 cites W2910745888 @default.
W3003877293 cites W2921726301 @default.
W3003877293 cites W2946341077 @default.
W3003877293 cites W2946512844 @default.
W3003877293 cites W2963336898 @default.
W3003877293 cites W2972634230 @default.
W3003877293 cites W3098232321 @default.
W3003877293 cites W3102473286 @default.
W3003877293 cites W3104523353 @default.
W3003877293 cites W4243559368 @default.
W3003877293 cites W4251264148 @default.
W3003877293 doi "https://doi.org/10.1364/prj.8.000175" @default.
W3003877293 hasPublicationYear "2020" @default.
W3003877293 type Work @default.
W3003877293 sameAs 3003877293 @default.
W3003877293 citedByCount "21" @default.
W3003877293 countsByYear W30038772932020 @default.
W3003877293 countsByYear W30038772932021 @default.
W3003877293 countsByYear W30038772932022 @default.
W3003877293 countsByYear W30038772932023 @default.
W3003877293 crossrefType "journal-article" @default.
W3003877293 hasAuthorship W3003877293A5011916006 @default.
W3003877293 hasAuthorship W3003877293A5017852501 @default.
W3003877293 hasAuthorship W3003877293A5043868220 @default.
W3003877293 hasAuthorship W3003877293A5056651945 @default.
W3003877293 hasAuthorship W3003877293A5084551270 @default.
W3003877293 hasAuthorship W3003877293A5085324458 @default.
W3003877293 hasConcept C120665830 @default.
W3003877293 hasConcept C121332964 @default.
W3003877293 hasConcept C176666156 @default.
W3003877293 hasConcept C17729963 @default.
W3003877293 hasConcept C192562407 @default.
W3003877293 hasConcept C23125352 @default.
W3003877293 hasConcept C40637687 @default.
W3003877293 hasConcept C49040817 @default.
W3003877293 hasConcept C520434653 @default.
W3003877293 hasConcept C62520636 @default.