Scalable, Patternable Glass-Infiltrated Ceramic Radiative Coolers for Energy-Saving Architectural Applications

Authors
Jeon, Seung KyuKim, June TaeKim, Min SeongKim, In SooPark, Sung JinJeong, HyeondeokLee, Gil JuKim, Yeong Jae
Issue Date
2023-09
Publisher
Wiley-VCH Verlag
Citation
Advanced Science, v.10, no.27
Abstract
A huge concern on global climate/energy crises has triggered intense development of radiative coolers (RCs), which are promising green-cooling technologies. The continuous efforts on RCs have fast-tracked notable energy-savings by minimizing solar absorption and maximizing thermal emission. Recently, in addition to spectral optimization, ceramic-based thermally insulative RCs are reported to improve thermoregulation by suppressing heat gain from the surroundings. However, a high temperature co-firing process of ceramic-based thick film inevitably results in a large mismatch of structural parameters between designed and fabricated components, thereby breaking spectral optimization. Here, this article proposes a scalable, non-shrinkable, patternable, and thermally insulative ceramic RC (SNPT-RC) using a roll-to-roll process, which can fill a vital niche in the field of radiative cooling. A stand-alone SNPT-RC exhibits excellent thermal insulation (& AP;0.251 W m(-1) K-1) with flame-resistivity and high solar reflectance/long-wave emissivity (& AP;96% and 92%, respectively). Alternate stacks of intermediate porous alumina/borosilicate (Al2O3-BS) layers not only result in outstanding thermal and spectral characteristics, causing excellent sub-ambient cooling (i.e., 7.05 & DEG;C cooling), but also non-shrinkable feature. Moreover, a perforated SNPT-RC demonstrates its versatility as a breathable radiative cooling shade and as a semi-transparent window, making it a highly promising technology for practical deployment in energy-saving architecture.
Keywords
glass infiltration; multi-layer; non-shrinkable ceramics; passive radiative cooling; thermal management
ISSN
2198-3844
URI
https://pubs.kist.re.kr/handle/201004/113348
DOI
10.1002/advs.202302701
Appears in Collections:
KIST Article > 2023
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