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Linearly Polarized Thermal Emitter for More Efficient Thermophotovoltaic Devices

Ames Laboratory

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Technology Marketing Summary

Thermophotovoltaic (TPV) devices can be used to generate power from photons, and consist of a thermal emitter and photodiode. These limitations of photovoltatic (PV) devices solar cells—since sunlight is composed of many different wavelengths, not all incident photons have an energy larger than the energy band gap (Eg) of the semiconducting material of the photodiode and thus, not all photons can contribute to the photo-current. If the thermal emitter of a TPV can absorb all incoming photons without discrimination and re-emit photons within a narrow range of energy that is optimized for the Eg of the photodiode, in principle, all energy carried by the incident photons can contribute for electricity generation, which leads results in enhanced energy conversion efficiency. While thermal radiation from a thermal source is usually unpolarized, a class of micro-structures termed polarized thermal emitters can emit polarized thermal radiation; polarized thermal emitters avoid the energy loss usually incurred by filtering because they preferentially emit photons via their structural anisotropy, and thus can improve the efficiency of TPVs.


Researchers have now fabricated layer-by-layer photonic crystals that can be used for linearly polarized thermal emission. This thermal emitter in conjunction with a sub-wavelength grating shows properties that are desirable for polarized thermal emitters for TPVs, including a high extinction ratio and high emissivity. In addition, the emission range can be tuned by controlling the periodicity of the sub-wavelength grating. The linearly polarized thermal emitter may thus have utility for improving the efficiency of TPVs used for power generation.

  • Highly polarized thermal emission available at normal emergence
  • High thermal radiation power
  • Tunable emission range
Applications and Industries

Solar cells; power generation.

More Information

Patents applied for.

Patents and Patent Applications
ID Number
Title and Abstract
Primary Lab
Patent 9,400,219
Metallic layer-by-layer photonic crystals for linearly-polarized thermal emission and thermophotovoltaic device including same
Metallic thermal emitters consisting of two layers of differently structured nickel gratings on a homogeneous nickel layer are fabricated by soft lithography and studied for polarized thermal radiation. A thermal emitter in combination with a sub-wavelength grating shows a high extinction ratio, with a maximum value close to 5, in a wide mid-infrared range from 3.2 to 7.8 .mu.m, as well as high emissivity up to 0.65 at a wavelength of 3.7 .mu.m. All measurements show good agreement with theoretical predictions. Numerical simulations reveal that a high electric field exists within the localized air space surrounded by the gratings and the intensified electric-field is only observed for the polarizations perpendicular to the top sub-wavelength grating. This result suggests how the emissivity of a metal can be selectively enhanced at a certain range of wavelengths for a given polarization.
Technology Status
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To: Stacy Joiner<>