Issue 18, 2019

Perfect blackbody sheets from nano-precision microtextured elastomers for light and thermal radiation management

Abstract

Planar near-perfect blackbodies have wide applications ranging from dark-level reduction to light harvesting. Among them, carbon nanotube (CNT) forests have an unmatched mid-infrared blackbody performance, which is favourable for thermal radiation management. However, their inherent fragility against direct contact limits their broader use. Here we present a class of perfect blackbody sheets from elastomers outperforming CNT forests. Nano-precision micro-cavity arrays embossed on a polydimethylsiloxane (PDMS) sheet exhibit an exceptionally low reflectance of ≲0.0005 (an absorptance of ≳0.9995) over the entire mid-infrared wavelengths (6–15 μm). In addition, this sheet maintains high resilience to tape-pulling, repeated bending, and scratching. The key technology is swift (>200 MeV) heavy ion manufacturing, yielding a highly flawless template of conical micro-cavities having necessary and sufficient openings (a dozen μm) and depths (several tens of μm) to trap ultrabroadband photons: this template affords scalable replication into PDMS blackbody sheets. Notably, the just-embossed PDMS sheets are visibly transmissive, whereas pre-addition of carbon black can extend the spectral range of near-perfect absorption as wide as from ultraviolet to mid-infrared wavelengths. Our tough and flexible planar blackbodies offer versatile applications of perfect absorbers/radiators, particularly with respect to thermal infrared management.

Graphical abstract: Perfect blackbody sheets from nano-precision microtextured elastomers for light and thermal radiation management

Supplementary files

Article information

Article type
Paper
Submitted
28 Dec 2018
Accepted
05 Apr 2019
First published
23 Apr 2019
This article is Open Access
Creative Commons BY license

J. Mater. Chem. C, 2019,7, 5418-5425

Perfect blackbody sheets from nano-precision microtextured elastomers for light and thermal radiation management

K. Amemiya, H. Koshikawa, M. Imbe, T. Yamaki and H. Shitomi, J. Mater. Chem. C, 2019, 7, 5418 DOI: 10.1039/C8TC06593D

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