SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3138244097> ?p ?o ?g. }

Showing items 1 to 100 of ±116 with 100 items per page.

W3138244097 endingPage "7" @default.
W3138244097 startingPage "1" @default.
W3138244097 abstract "To achieve good indoor thermal comfortability in the hot summer days, searching for suitable solar shielding materials for buildings is of great importance. In this work, In doped CuS nanocrystals were first synthesized as novel NIR shielding materials for energy efficient windows. The influence of In doping on the microstructure, phase composition, optical performance, and thermal property of CuS were systematically explored. All the products adopted a hexagonal structure. Both of CuS and In doped CuS nanocrystals were composed of nanoplates and nanorods. All samples showed high visible transmittance (63.9–78.4%). Optical tests confirmed that the doping of indium ions was an effective way to improve the NIR shielding performance of the CuS films. The NIR shielding value of the films increased from 47.2% to 68.2% when the doping amount of In increased from 0 to 2%. The reason can be attributed to the enhanced NIR absorption induced by the increased hole concentration after doping of In3+ ions. Moreover, the In doped CuS films lowered the indoor temperature of the heat box by 8.4 °C in the thermal tests, further confirming the superior NIR shielding performance of In doped CuS nanocrystals." @default.
W3138244097 created "2021-03-29" @default.
W3138244097 creator A5032342607 @default.
W3138244097 creator A5078451388 @default.
W3138244097 creator A5083974854 @default.
W3138244097 date "2021-05-01" @default.
W3138244097 modified "2023-10-16" @default.
W3138244097 title "Novel energy efficient window coatings based on In doped CuS nanocrystals with enhanced NIR shielding performance" @default.
W3138244097 cites W1972710200 @default.
W3138244097 cites W1980107343 @default.
W3138244097 cites W2020504721 @default.
W3138244097 cites W2023502781 @default.
W3138244097 cites W2048616066 @default.
W3138244097 cites W2054581485 @default.
W3138244097 cites W2076831132 @default.
W3138244097 cites W2257208887 @default.
W3138244097 cites W2302837525 @default.
W3138244097 cites W2314202291 @default.
W3138244097 cites W2316427302 @default.
W3138244097 cites W2321378781 @default.
W3138244097 cites W2333707736 @default.
W3138244097 cites W2415170272 @default.
W3138244097 cites W2591751323 @default.
W3138244097 cites W2606086139 @default.
W3138244097 cites W2606824350 @default.
W3138244097 cites W2609355504 @default.
W3138244097 cites W2614053314 @default.
W3138244097 cites W2623519651 @default.
W3138244097 cites W2765402743 @default.
W3138244097 cites W2769265592 @default.
W3138244097 cites W2773847025 @default.
W3138244097 cites W2789918048 @default.
W3138244097 cites W2790443012 @default.
W3138244097 cites W2794462788 @default.
W3138244097 cites W2800722409 @default.
W3138244097 cites W2896520088 @default.
W3138244097 cites W2897755434 @default.
W3138244097 cites W2904588318 @default.
W3138244097 cites W2912005490 @default.
W3138244097 cites W2914508805 @default.
W3138244097 cites W2917204895 @default.
W3138244097 cites W2926355782 @default.
W3138244097 cites W2932233021 @default.
W3138244097 cites W2944247382 @default.
W3138244097 cites W2958878782 @default.
W3138244097 cites W2962586526 @default.
W3138244097 cites W2964686755 @default.
W3138244097 cites W2971498842 @default.
W3138244097 cites W2972559481 @default.
W3138244097 cites W2981564606 @default.
W3138244097 cites W3000563018 @default.
W3138244097 cites W3036755652 @default.
W3138244097 cites W3045690233 @default.
W3138244097 cites W3083636577 @default.
W3138244097 cites W3087858577 @default.
W3138244097 cites W3092081858 @default.
W3138244097 cites W3099728211 @default.
W3138244097 doi "https://doi.org/10.1016/j.solener.2021.02.045" @default.
W3138244097 hasPublicationYear "2021" @default.
W3138244097 type Work @default.
W3138244097 sameAs 3138244097 @default.
W3138244097 citedByCount "18" @default.
W3138244097 countsByYear W31382440972021 @default.
W3138244097 countsByYear W31382440972022 @default.
W3138244097 countsByYear W31382440972023 @default.
W3138244097 crossrefType "journal-article" @default.
W3138244097 hasAuthorship W3138244097A5032342607 @default.
W3138244097 hasAuthorship W3138244097A5078451388 @default.
W3138244097 hasAuthorship W3138244097A5083974854 @default.
W3138244097 hasConcept C125287762 @default.
W3138244097 hasConcept C126201875 @default.
W3138244097 hasConcept C127413603 @default.
W3138244097 hasConcept C150493377 @default.
W3138244097 hasConcept C159985019 @default.
W3138244097 hasConcept C171250308 @default.
W3138244097 hasConcept C175854130 @default.
W3138244097 hasConcept C192562407 @default.
W3138244097 hasConcept C2265751 @default.
W3138244097 hasConcept C42360764 @default.
W3138244097 hasConcept C49040817 @default.
W3138244097 hasConcept C543292547 @default.
W3138244097 hasConcept C57863236 @default.
W3138244097 hasConceptScore W3138244097C125287762 @default.
W3138244097 hasConceptScore W3138244097C126201875 @default.
W3138244097 hasConceptScore W3138244097C127413603 @default.
W3138244097 hasConceptScore W3138244097C150493377 @default.
W3138244097 hasConceptScore W3138244097C159985019 @default.
W3138244097 hasConceptScore W3138244097C171250308 @default.
W3138244097 hasConceptScore W3138244097C175854130 @default.
W3138244097 hasConceptScore W3138244097C192562407 @default.
W3138244097 hasConceptScore W3138244097C2265751 @default.
W3138244097 hasConceptScore W3138244097C42360764 @default.
W3138244097 hasConceptScore W3138244097C49040817 @default.
W3138244097 hasConceptScore W3138244097C543292547 @default.
W3138244097 hasConceptScore W3138244097C57863236 @default.
W3138244097 hasFunder F4320321001 @default.
W3138244097 hasLocation W31382440971 @default.
W3138244097 hasOpenAccess W3138244097 @default.