SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4207022011> ?p ?o ?g. }

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

W4207022011 endingPage "152563" @default.
W4207022011 startingPage "152563" @default.
W4207022011 abstract "• Propose of simple, affordable, and passive solar desalination system. • Use of hybrid metal-silcon nanowires for enhancing light absorption over the entire solar spectrum. • Improve heat localization via low thermal conductivity of silicon nanowires. • An evporation rate of 1.12 kg m -2 h −1 was achieved under 1-sun illumination. Solar-thermal energy conversion for passive steam generation is attracting a lot of attention as a next-generation eco-friendly and sustainable technology. Tremendous effort has been devoted to produce efficient light-absorbing materials such as metal nanoparticles, semiconductors, MXene, and carbon-based materials. Among the various candidates, silicon (Si) is an excellent light-absorber that has been widely used in solar power generation. However, Si barely absorbs photons that have energy below its bandgap (1.12 eV), which occupies 20% of the entire solar spectrum. Here, we propose a metal-Si hybrid nanowire (NW) structure (plasmonic Si NWs) suitable for overcoming the low absorption limit of Si. The bundle-shaped Si NWs involving plasmonic nanostructures exhibits strong light absorption properties (A avg > 91%) over the entire solar spectrum (300–2500 nm). The low thermal conductivity of Si NWs enhance heat localization by suppressing the heat dissipation to the surrounding. Owing to the unique optical and thermal properties of the plasmonic Si NW structure, excellent evaporation rates and efficiencies of 1.12 kg m -2 h −1 and 72.8 %, respectively, were obtained under 1-sun illumination (1 kW m −2 ). Thus, the plasmonic Si NWs have the potential to be used in various fields such as solar photothermal desalination, contaminated water purification, and solar thermoelectric power generation." @default.
W4207022011 created "2022-01-26" @default.
W4207022011 creator A5001271260 @default.
W4207022011 creator A5024292172 @default.
W4207022011 creator A5042241877 @default.
W4207022011 creator A5050376840 @default.
W4207022011 creator A5062940140 @default.
W4207022011 creator A5079931698 @default.
W4207022011 date "2022-05-01" @default.
W4207022011 modified "2023-10-02" @default.
W4207022011 title "Plasmonic silicon nanowires for enhanced heat localization and interfacial solar steam generation" @default.
W4207022011 cites W1978202928 @default.
W4207022011 cites W1983622780 @default.
W4207022011 cites W2015640842 @default.
W4207022011 cites W2052989605 @default.
W4207022011 cites W2053348393 @default.
W4207022011 cites W2070305762 @default.
W4207022011 cites W2072496825 @default.
W4207022011 cites W2076917895 @default.
W4207022011 cites W2084629494 @default.
W4207022011 cites W2086778233 @default.
W4207022011 cites W2094868186 @default.
W4207022011 cites W2109976640 @default.
W4207022011 cites W2132162076 @default.
W4207022011 cites W2132998323 @default.
W4207022011 cites W2254097732 @default.
W4207022011 cites W2469877540 @default.
W4207022011 cites W2611941517 @default.
W4207022011 cites W2659046996 @default.
W4207022011 cites W2745377717 @default.
W4207022011 cites W2760679021 @default.
W4207022011 cites W2766701693 @default.
W4207022011 cites W2775815819 @default.
W4207022011 cites W2778631309 @default.
W4207022011 cites W2779422286 @default.
W4207022011 cites W2782225600 @default.
W4207022011 cites W2788261421 @default.
W4207022011 cites W2793789541 @default.
W4207022011 cites W2796589621 @default.
W4207022011 cites W2799795862 @default.
W4207022011 cites W2802694158 @default.
W4207022011 cites W2809417569 @default.
W4207022011 cites W2884459708 @default.
W4207022011 cites W2884934908 @default.
W4207022011 cites W2886812736 @default.
W4207022011 cites W2895436947 @default.
W4207022011 cites W2896107097 @default.
W4207022011 cites W2902421040 @default.
W4207022011 cites W2903659781 @default.
W4207022011 cites W2941122945 @default.
W4207022011 cites W2966157239 @default.
W4207022011 cites W2966601699 @default.
W4207022011 cites W2979917374 @default.
W4207022011 cites W2996235788 @default.
W4207022011 cites W3010762669 @default.
W4207022011 cites W3011759857 @default.
W4207022011 cites W3013111675 @default.
W4207022011 cites W3034748909 @default.
W4207022011 cites W3040353645 @default.
W4207022011 cites W3041567996 @default.
W4207022011 cites W3102174781 @default.
W4207022011 doi "https://doi.org/10.1016/j.apsusc.2022.152563" @default.
W4207022011 hasPublicationYear "2022" @default.
W4207022011 type Work @default.
W4207022011 citedByCount "21" @default.
W4207022011 countsByYear W42070220112022 @default.
W4207022011 countsByYear W42070220112023 @default.
W4207022011 crossrefType "journal-article" @default.
W4207022011 hasAuthorship W4207022011A5001271260 @default.
W4207022011 hasAuthorship W4207022011A5024292172 @default.
W4207022011 hasAuthorship W4207022011A5042241877 @default.
W4207022011 hasAuthorship W4207022011A5050376840 @default.
W4207022011 hasAuthorship W4207022011A5062940140 @default.
W4207022011 hasAuthorship W4207022011A5079931698 @default.
W4207022011 hasConcept C108225325 @default.
W4207022011 hasConcept C110879396 @default.
W4207022011 hasConcept C125287762 @default.
W4207022011 hasConcept C159985019 @default.
W4207022011 hasConcept C171250308 @default.
W4207022011 hasConcept C181966813 @default.
W4207022011 hasConcept C192562407 @default.
W4207022011 hasConcept C206991015 @default.
W4207022011 hasConcept C47180545 @default.
W4207022011 hasConcept C49040817 @default.
W4207022011 hasConcept C544956773 @default.
W4207022011 hasConcept C66187686 @default.
W4207022011 hasConcept C74214498 @default.
W4207022011 hasConcept C97346530 @default.
W4207022011 hasConceptScore W4207022011C108225325 @default.
W4207022011 hasConceptScore W4207022011C110879396 @default.
W4207022011 hasConceptScore W4207022011C125287762 @default.
W4207022011 hasConceptScore W4207022011C159985019 @default.
W4207022011 hasConceptScore W4207022011C171250308 @default.
W4207022011 hasConceptScore W4207022011C181966813 @default.
W4207022011 hasConceptScore W4207022011C192562407 @default.
W4207022011 hasConceptScore W4207022011C206991015 @default.
W4207022011 hasConceptScore W4207022011C47180545 @default.
W4207022011 hasConceptScore W4207022011C49040817 @default.