Thermal radiation of Er doped dielectric crystals: Probing the range of applicability of the Kirchhoff’s law

Tanyi, E. K.; Burton, Brandi T.; Narimanov, Evgenii E.; Noginov, M. A.

doi:10.1038/s41598-017-01544-3

Cited by 8 publications

(5 citation statements)

References 56 publications

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“…Thus, the material is attractive for direct thermal to electrical energy conversion which enables small-scale energy harvesting devices to operate at low temperatures. The absorption peak around 1502 nm corresponds to the transition from the ground state 4 I 15/2 to excited state 4 I 13/2 16 , 18 – 20 . Thus, the FTNG was placed below an IR light bulb at a 2 cm distance.…”

Section: Resultsmentioning

confidence: 99%

“…Despite the noticeable optical properties of the lanthanide ions doped PVDF films, they have yet to be used for pyro-electric energy harvesting and sensing. Among the other lanthanide ions, Er 3+ is known to possess superior optical activity in the infrared (IR) region 16 – 20 . Infrared rays are known to induce a photo-thermal effect, especially the near infrared rays (NIR), i.e., 760–1500 nm wavelength region 21 .…”

Section: Introductionmentioning

confidence: 99%

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A hybrid strain and thermal energy harvester based on an infra-red sensitive Er3+ modified poly(vinylidene fluoride) ferroelectret structure

Ghosh

Xie

Bowen

et al. 2017

Sci Rep

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In this paper, a novel infra-red (IR) sensitive Er3+ modified poly(vinylidene fluoride) (PVDF) (Er-PVDF) film is developed for converting both mechanical and thermal energies into useful electrical power. The addition of Er3+ to PVDF is shown to improve piezoelectric properties due to the formation of a self-polarized ferroelectric β-phase and the creation of an electret-like porous structure. In addition, we demonstrate that Er3+ acts to enhance heat transfer into the Er-PVDF film due to its excellent infrared absorbance, which, leads to rapid and large temperature fluctuations and improved pyroelectric energy transformation. We demonstrate the potential of this novel material for mechanical energy harvesting by creating a durable ferroelectret energy harvester/nanogenerator (FTNG). The high thermal stability of the β-phase enables the FTNG to harvest large temperature fluctuations (ΔT ~ 24 K). Moreover, the superior mechanosensitivity, SM ~ 3.4 VPa−1 of the FTNG enables the design of a wearable self-powered health-care monitoring system by human-machine integration. The combination of rare-earth ion, Er3+ with the ferroelectricity of PVDF provides a new and robust approach for delivering smart materials and structures for self-powered wireless technologies, sensors and Internet of Things (IoT) devices.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A hybrid strain and thermal energy harvester based on an infra-red sensitive Er3+ modified poly(vinylidene fluoride) ferroelectret structure

Ghosh

Xie

Bowen

et al. 2017

Sci Rep

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“…The FOM weighs the solar absorptivity and thermal emissivity of a sample against the intensity of the entire solar spectra. According to Kirchoff’s law of radiation, for a blackbody absorber in equilibrium, the solar absorptivity equals the thermal emissivity . The sum of all the transmittance, absorbance, and reflectance of material has to equal 1, which is 100% of light.…”

Section: Methodsmentioning

confidence: 99%

“…According to Kirchoff's law of radiation, for a blackbody absorber in equilibrium, the solar absorptivity equals the thermal emissivity. 26 The sum of all the transmittance, absorbance, and reflectance of material has to equal 1, which is 100% of light. For opaque objects, there is no transmittance, so the absorptivity, which equals the emissivity, should be 1 minus the reflectivity.…”

Section: Performance Evaluation Of Figure Of Merit For Black Nanopart...mentioning

confidence: 99%

Effects of Metal Dopings on CuCr₂O₄ Pigment for Use in Concentrated Solar Power Solar Selective Coatings

Youn

Miller

Nwe

et al. 2019

ACS Appl. Energy Mater.

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The process of fabricating the solar absorbing spinel-structured CuCr2O4 black oxide pigment doped with different metals (Mn, Ni, Co, Al, Zn, and Sn) was discovered to improve the solar selective property. Manganese stands out as an ideal dopant to copper chromite (CuCr2O4) for highly solar absorptive pigments compared to the other metal dopings. XRD analysis confirmed that various molar ratios of CuCr(2–x)Mn x O4 spinel black oxides were successfully fabricated. Mn-doped black oxide has the highest absorptivity (the lowest band gap value of 1.35 eV) among various metal doped black oxides produced by the hydrothermal synthesis. Manganese is the only dopant that suppresses reflectance peaks exhibited by the copper chromium oxide at 1 and 1.5 μm in the light spectrum, raising the solar absorptivity of the pigment. Different manganese doping compositions are introduced to CuCr(2–x)Mn x O4 where x = 0.1, 0.25, 0.5, 1, 1.5, 1.75, and 1.9. The high selective solar absorptivity appears after 100% (x = 1) manganese doping with solar absorbance 0.9874 and a figure of merit (FOM) value of 0.9284.

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“…As it is highlighted in Ref. [24], these two assumptions are often not satisfied. In particular, any photovoltaic converter operates in strongly nonlinear regime far from equilibrium.…”

Section: Photovoltaic Greenhouse Effectmentioning

confidence: 99%

Nonreciprocal Photovoltaics: The Path to Conversion of Entire Power-Beam Exergy

Sergeev¹,

Sablon²

2023

Exergy - New Technologies and Applications

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Nonreciprocal photonic management can shift the absorption-emission balance in favor of absorption and enhance the conversion efficiency beyond the detailed balance Shockley - Queisser limit. Nonreciprocal photovoltaic (PV) cells can provide the conversion of the entire exergy (Helmholtz free energy) of quasi-monochromatic radiation into electric power. Recent discoveries in electromagnetics have demonstrated the ability to break Kirchhoff’s reciprocity in a variety of ways. The absorption-emission nonreciprocity may be realized via dissipationless one-way optical components as well as via the greenhouse-type electron-photon kinetics that traps the low-energy near-bandgap photons in the cell. We calculate the limiting performance of the nonreciprocal dissipationless monochromatic converter and discuss the limiting efficiency of the nonreciprocal converter based on the greenhouse effect. We also perform detailed modeling of the greenhouse effect in the GaAs PV converter and determined its PV performance for conversion of 809 nm laser radiation. In perovskite PV cells the greenhouse filter establishes a sharp absorption edge and reduces conversion losses related to the distributed PV bandgap and laser-cell matching losses.

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Thermal radiation of Er doped dielectric crystals: Probing the range of applicability of the Kirchhoff’s law

Cited by 8 publications

References 56 publications

A hybrid strain and thermal energy harvester based on an infra-red sensitive Er3+ modified poly(vinylidene fluoride) ferroelectret structure

A hybrid strain and thermal energy harvester based on an infra-red sensitive Er3+ modified poly(vinylidene fluoride) ferroelectret structure

Effects of Metal Dopings on CuCr₂O₄ Pigment for Use in Concentrated Solar Power Solar Selective Coatings

Nonreciprocal Photovoltaics: The Path to Conversion of Entire Power-Beam Exergy

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Thermal radiation of Er doped dielectric crystals: Probing the range of applicability of the Kirchhoff’s law

Cited by 8 publications

References 56 publications

A hybrid strain and thermal energy harvester based on an infra-red sensitive Er3+ modified poly(vinylidene fluoride) ferroelectret structure

A hybrid strain and thermal energy harvester based on an infra-red sensitive Er3+ modified poly(vinylidene fluoride) ferroelectret structure

Effects of Metal Dopings on CuCr2O4 Pigment for Use in Concentrated Solar Power Solar Selective Coatings

Nonreciprocal Photovoltaics: The Path to Conversion of Entire Power-Beam Exergy

Contact Info

Product

Resources

About

Effects of Metal Dopings on CuCr₂O₄ Pigment for Use in Concentrated Solar Power Solar Selective Coatings