2023
DOI: 10.1021/acsnano.2c09737
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Multifunctional Nanostructures with Controllable Band Gap Giving Highly Stable Infrared Emissivity for Smart Thermal Management

Abstract: Thermal control is essential to guarantee the optimal performance of most advanced electronic devices or systems. In space, orbital satellites face the issues of high thermal gradients, heating, and different thermal loads mediated by differential illumination from the Sun. Todayś state-of-the-art thermal control systems provide protection; however, they are bulky and restrict the mass and power budgets for payloads. Here, we develop a lightweight optical superlattice nanobarrier structure to provide a smart t… Show more

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Cited by 7 publications
(1 citation statement)
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“…Recent advances in spacecraft thermal control have been significant in both passive and active devices 181 , 182 . Research on passive components includes phase change materials for heat storage to reduce radiator size, 183 materials, such as graphene and aerosols, 184 and multifunctional nanostructure surfaces that modulate the emissivity and absorptivity to optimize the thermal performance 185 . Miniaturization of active thermal devices, such as cryocoolers 181 and pumped fluid loops for small satellites, 186 will be also relevant for future FSOC systems.…”
Section: Future Workmentioning
confidence: 99%
“…Recent advances in spacecraft thermal control have been significant in both passive and active devices 181 , 182 . Research on passive components includes phase change materials for heat storage to reduce radiator size, 183 materials, such as graphene and aerosols, 184 and multifunctional nanostructure surfaces that modulate the emissivity and absorptivity to optimize the thermal performance 185 . Miniaturization of active thermal devices, such as cryocoolers 181 and pumped fluid loops for small satellites, 186 will be also relevant for future FSOC systems.…”
Section: Future Workmentioning
confidence: 99%