SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891163749> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W2891163749 endingPage "422" @default.
W2891163749 startingPage "416" @default.
W2891163749 abstract "We adopted hollow 3D structures of transparent conducting oxides (TCO) for efficient emission control. TCO has high transmittance in the solar spectrum and tunable optical properties in the infrared regime due to their plasmonic property. The IR emissivity can be further adjusted by the geometry. Here, using solid and hollow triangles as an example, we modeled the spectral absorptance of 3D TCO structures with various carrier concentrations and geometrical factors. We showed that hollow triangular structures enhance the spectrally selective absorption, namely, high emittance in IR and low absorptance in the solar spectrum. This is because the large primary sizes of the triangles can interact strongly with the longer wavelength mid-IR while the small wall thickness of the hollow structures reduces the overall absorption volume for the shorter wavelength light in the near-IR and visible regimes. Further, by changing their angles, the hollow features can be used to tune the IR emissivity within a large range (from 0.14 to 0.8). The selective and tunable absorptance of 3D hollow structures of TCO may find applications in passive radiative cooling, solar thermal absorbing, and tunable windows glazing." @default.
W2891163749 created "2018-09-27" @default.
W2891163749 creator A5010582894 @default.
W2891163749 creator A5022209577 @default.
W2891163749 creator A5091658266 @default.
W2891163749 date "2018-12-01" @default.
W2891163749 modified "2023-09-27" @default.
W2891163749 title "Hollow photonic structures of transparent conducting oxide with selective and tunable absorptance" @default.
W2891163749 cites W1691917253 @default.
W2891163749 cites W1832811259 @default.
W2891163749 cites W1970573306 @default.
W2891163749 cites W1974052117 @default.
W2891163749 cites W1984356428 @default.
W2891163749 cites W2000854603 @default.
W2891163749 cites W2016027677 @default.
W2891163749 cites W2017419190 @default.
W2891163749 cites W2024230043 @default.
W2891163749 cites W2024450502 @default.
W2891163749 cites W2040413221 @default.
W2891163749 cites W2041697277 @default.
W2891163749 cites W2050631476 @default.
W2891163749 cites W2058152446 @default.
W2891163749 cites W2058676445 @default.
W2891163749 cites W2076699264 @default.
W2891163749 cites W2078718040 @default.
W2891163749 cites W2080565197 @default.
W2891163749 cites W2084745023 @default.
W2891163749 cites W2088284329 @default.
W2891163749 cites W2088615769 @default.
W2891163749 cites W2089123823 @default.
W2891163749 cites W2089828074 @default.
W2891163749 cites W2093725711 @default.
W2891163749 cites W2098729779 @default.
W2891163749 cites W2108554848 @default.
W2891163749 cites W2119386397 @default.
W2891163749 cites W2152504338 @default.
W2891163749 cites W2180194198 @default.
W2891163749 cites W2307060946 @default.
W2891163749 cites W2316029918 @default.
W2891163749 cites W2346421392 @default.
W2891163749 cites W2520949388 @default.
W2891163749 cites W2526591088 @default.
W2891163749 cites W2566098843 @default.
W2891163749 cites W2585989228 @default.
W2891163749 cites W2616587691 @default.
W2891163749 cites W2755838638 @default.
W2891163749 cites W2764030270 @default.
W2891163749 cites W2768813450 @default.
W2891163749 cites W2795296306 @default.
W2891163749 cites W2796625417 @default.
W2891163749 cites W2806065216 @default.
W2891163749 cites W2899858002 @default.
W2891163749 doi "https://doi.org/10.1016/j.applthermaleng.2018.09.062" @default.
W2891163749 hasPublicationYear "2018" @default.
W2891163749 type Work @default.
W2891163749 sameAs 2891163749 @default.
W2891163749 citedByCount "5" @default.
W2891163749 countsByYear W28911637492019 @default.
W2891163749 countsByYear W28911637492020 @default.
W2891163749 countsByYear W28911637492022 @default.
W2891163749 crossrefType "journal-article" @default.
W2891163749 hasAuthorship W2891163749A5010582894 @default.
W2891163749 hasAuthorship W2891163749A5022209577 @default.
W2891163749 hasAuthorship W2891163749A5091658266 @default.
W2891163749 hasBestOaLocation W28911637491 @default.
W2891163749 hasConcept C104663316 @default.
W2891163749 hasConcept C108597893 @default.
W2891163749 hasConcept C117537405 @default.
W2891163749 hasConcept C120665830 @default.
W2891163749 hasConcept C121332964 @default.
W2891163749 hasConcept C125287762 @default.
W2891163749 hasConcept C150493377 @default.
W2891163749 hasConcept C154582812 @default.
W2891163749 hasConcept C158355884 @default.
W2891163749 hasConcept C159985019 @default.
W2891163749 hasConcept C163651212 @default.
W2891163749 hasConcept C168834538 @default.
W2891163749 hasConcept C192562407 @default.
W2891163749 hasConcept C2780851986 @default.
W2891163749 hasConcept C46918542 @default.
W2891163749 hasConcept C49040817 @default.
W2891163749 hasConcept C60056205 @default.
W2891163749 hasConcept C6260449 @default.
W2891163749 hasConcept C92508244 @default.
W2891163749 hasConceptScore W2891163749C104663316 @default.
W2891163749 hasConceptScore W2891163749C108597893 @default.
W2891163749 hasConceptScore W2891163749C117537405 @default.
W2891163749 hasConceptScore W2891163749C120665830 @default.
W2891163749 hasConceptScore W2891163749C121332964 @default.
W2891163749 hasConceptScore W2891163749C125287762 @default.
W2891163749 hasConceptScore W2891163749C150493377 @default.
W2891163749 hasConceptScore W2891163749C154582812 @default.
W2891163749 hasConceptScore W2891163749C158355884 @default.
W2891163749 hasConceptScore W2891163749C159985019 @default.
W2891163749 hasConceptScore W2891163749C163651212 @default.
W2891163749 hasConceptScore W2891163749C168834538 @default.
W2891163749 hasConceptScore W2891163749C192562407 @default.
W2891163749 hasConceptScore W2891163749C2780851986 @default.