Plasmon-Enhanced Greenhouse Selectivity for High-Temperature Solar Thermal Energy Conversion

Plasmon-Enhanced Greenhouse Selectivity for High-Temperature Solar Thermal Energy Conversion

The greenhouse effect arises when thermal radiation is forced to undergo absorption and re-emission many times before escaping, while sunlight transmits largely unimpeded. Although this effect is responsible for global warming, it is generally weak in solid-state materials because radiation can be e...

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Veröffentlicht in:ACS nano 2020-10, Vol.14 (10), p.12605-12613
Hauptverfasser: Berquist, Zachary J, Turaczy, Kevin K, Lenert, Andrej
Format: Artikel
Sprache:eng
Schlagworte:
absorption
Aerogel
concentrated solar power
infrared
light absorption
optical properties
plasmonic
selective absorber
selectivity
SOLAR ENERGY
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Zusammenfassung:The greenhouse effect arises when thermal radiation is forced to undergo absorption and re-emission many times before escaping, while sunlight transmits largely unimpeded. Although this effect is responsible for global warming, it is generally weak in solid-state materials because radiation can be easily overpowered by other modes of heat transfer. Here, we report on the use of infrared plasmonic nanoparticles to enhance the greenhouse effect in transparent mesoporous materials. Local surface plasmon resonances in transparent conducting oxide nanoparticles (TCO NPs) selectively shorten the mean free path of thermal photons while maintaining high solar transmittance. The addition of a small amount of TCO NPs (
ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.0c04982