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Title: Enabling high-temperature nanophotonics for energy applications

Journal Article · · Proceedings of the National Academy of Sciences of the United States of America
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  1. Massachusetts Inst. of Technology (MIT), Cambridge, MA (United States)
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The nascent field of high-temperature nanophotonics could potentially enable many important solid-state energy conversion applications, such as thermophotovoltaic energy generation, selective solar absorption, and selective emission of light. However, special challenges arise when trying to design nanophotonic materials with precisely tailored optical properties that can operate at high-temperatures (> 1,100 K). These include proper material selection and purity to prevent melting, evaporation, or chemical reactions; severe minimization of any material interfaces to prevent thermomechanical problems such as delamination; robust performance in the presence of surface diffusion; and long-range geometric precision over large areas with severe minimization of very small feature sizes to maintain structural stability. We report an approach for high-temperature nanophotonics that surmounts all of these difficulties. It consists of an analytical and computationally guided design involving high-purity tungsten in a precisely fabricated photonic crystal slab geometry (specifically chosen to eliminate interfaces arising from layer-by-layer fabrication) optimized for high performance and robustness in the presence of roughness, fabrication errors, and surface diffusion. It offers near-ultimate short-wavelength emittance and low, ultra-broadband long-wavelength emittance, along with a sharp cutoff offering 4:1 emittance contrast over 10% wavelength separation. This is achieved via Q-matching, whereby the absorptive and radiative rates of the photonic crystal’s cavity resonances are matched. Strong angular emission selectivity is also observed, with short-wavelength emission suppressed by 50% at 75° compared to normal incidence. Finally, a precise high-temperature measurement technique is developed to confirm that emission at 1,225 K can be primarily confined to wavelengths shorter than the cutoff wavelength.

Research Organization:
Massachusetts Inst. of Technology (MIT), Cambridge, MA (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Basic Energy Sciences (BES)
Grant/Contract Number:
SC0001299
OSTI ID:
1386836
Journal Information:
Proceedings of the National Academy of Sciences of the United States of America, Vol. 109, Issue 7; ISSN 0027-8424
Publisher:
National Academy of SciencesCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 184 works
Citation information provided by
Web of Science

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  • SPACE TECHNOLOGY AND APPLICATIONS INT.FORUM-STAIF 2005: Conf.Thermophys in Micrograv;Conf Comm/Civil Next Gen.Space Transp; 22nd Symp Space Nucl.Powr Propuls.;Conf.Human/Robotic Techn.Nat'l Vision Space Expl.; 3rd Symp Space Colon.; 2nd Symp.New Frontiers, AIP Conference Proceedings https://doi.org/10.1063/1.1867178
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Cited By (46)

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Heat meets light on the nanoscale text January 2016
‘Squeezing’ near-field thermal emission for ultra-efficient high-power thermophotovoltaic conversion journal July 2016
Plasmonic and metamaterial structures as electromagnetic absorbers: Plasmonic and metamaterial absorbers journal June 2014
Thermally tunable water-substrate broadband metamaterial absorbers journal March 2017
Near-infrared–to–visible highly selective thermal emitters based on an intrinsic semiconductor journal December 2016
High-temperature tantalum tungsten alloy photonic crystals: Stability, optical properties, and fabrication journal September 2013
High-Efficiency Plasmonic Metamaterial Selective Emitter Based on an Optimized Spherical Core-Shell Nanostructure for Planar Solar Thermophotovoltaics journal November 2014
Pt/Alumina Hyperbolic Metafilms with High-Temperature Stability, Wide Wavelength Tunability, and Omnidirectional Absorption journal May 2018
Practical emitters for thermophotovoltaics: a review journal February 2019
Three-dimensional self-assembled photonic crystals with high temperature stability for thermal emission modification journal October 2013
Femtosecond laser direct writing of large-area two-dimensional metallic photonic crystal structures on tungsten surfaces journal January 2015
Ultra-narrow-band near-infrared thermal exciton radiation in intrinsic one-dimensional semiconductors journal August 2018
Nanophotonic engineering of far-field thermal emitters journal May 2019
Spectrally Selective Mid-Infrared Thermal Emission from Molybdenum Plasmonic Metamaterial Operated up to 1000 °C journal September 2016
Ultrathin nanostructured solar selective absorber based on a two-dimensional hemispherical shell array journal February 2018
Transparent broadband metamaterial absorber enhanced by water-substrate incorporation journal January 2018
Recent developments in high-temperature photonic crystals for energy conversion journal January 2012
Thermal degradation of refractory layered metamaterial for thermophotovoltaic emitter under high vacuum condition journal January 2019
Enabling efficient heat-to-electricity generation at the mesoscale journal January 2017
Radiative cooling of solar absorbers using a visibly transparent photonic crystal thermal blackbody journal September 2015
Visible to near-infrared thermal radiation from nanostructured tungsten anntennas journal August 2018
Selective emitters for thermophotovoltaic applications: Selective emitters for TPV applications journal November 2016
Large-Scale Nanophotonic Solar Selective Absorbers for High-Efficiency Solar Thermal Energy Conversion journal July 2015
Study of W/HfO 2 grating selective thermal emitters for thermophotovoltaic applications journal January 2018
Nanophotonic control of thermal radiation for energy applications [Invited] journal January 2018
Control over Emissivity of Zero-Static-Power Thermal Emitters Based on Phase Changing Material GST conference January 2017
Tungsten band edge absorber/emitter based on a monolayer of ceramic microspheres journal January 2015
Lithography‐Free Large‐Area Metamaterials for Stable Thermophotovoltaic Energy Conversion journal February 2016
Tungsten-Carbon Nanotube Composite Photonic Crystals as Thermally Stable Spectral-Selective Absorbers and Emitters for Thermophotovoltaics journal August 2018
Next-generation mid-infrared sources journal November 2017
Pareto Optimal Spectrally Selective Emitters for Thermophotovoltaics via Weak Absorber Critical Coupling journal July 2018
Large-scale nanostructured low-temperature solar selective absorber journal January 2017
Micro- and Nanostructured Surfaces for Selective Solar Absorption journal May 2015
Controlling thermal emission with refractory epsilon-near-zero metamaterials via topological transitions journal June 2016
Heat meets light on the nanoscale journal January 2016
Photonic thermal management of coloured objects journal October 2018
Control over emissivity of zero-static-power thermal emitters based on phase-changing material GST journal July 2016
Thermal graphene metamaterials and epsilon-near-zero high temperature plasmonics journal March 2017
Specular side reflectors for high efficiency thermal-to-optical energy conversion journal January 2018
Design of wide-angle selective absorbers/emitters with dielectric filled metallic photonic crystals for energy applications journal December 2013
Enabling Ideal Selective Solar Absorption with 2D Metallic Dielectric Photonic Crystals journal September 2014
Transforming heat transfer with thermal metamaterials and devices journal March 2021
Anisotropic multi-step etching for large-area fabrication of surface microstructures on stainless steel to control thermal radiation journal March 2015
Control over emissivity of zero-static-power thermal emitters based on phase changing material GST text January 2016
Smart patterned surfaces with programmable thermal emissivity and their design through combinatorial strategies text January 2017

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14 SOLAR ENERGY
77 NANOSCIENCE AND NANOTECHNOLOGY
selective emitter/absorber
infrared source