GaAs-Based Near-Field Thermophotonic Devices: Approaching The Idealized Case With One-Dimensional PN Junctions

Julien Legendre; Pierre-Olivier Chapuis

doi:10.1016/j.solmat.2022.111594

Article Dans Une Revue Solar Energy Materials and Solar Cells Année : 2022

GaAs-Based Near-Field Thermophotonic Devices: Approaching The Idealized Case With One-Dimensional PN Junctions

(1) , (1)

Julien Legendre

Fonction : Auteur
PersonId : 754191
IdHAL : julien-legendre
ORCID : 0000-0001-7316-1954
IdRef : 273984373

Centre d'Energétique et de Thermique de Lyon

Pierre-Olivier Chapuis

Fonction : Auteur
PersonId : 171286
IdHAL : pierre-olivier-chapuis
ORCID : 0000-0002-6264-2530
IdRef : 191202266

Centre d'Energétique et de Thermique de Lyon

Résumé

Thermophotonics (TPX) is a technology close to thermophotovoltaics (TPV), where a heated light-emitting diode (LED) is used as the active thermal emitter of the system. It allows to tune the heat flux, by means of electroluminescence, to a spectral range matching better the gap of a photovoltaic cell. The concept is extended to near-field thermophotonics (NF-TPX), where enhanced energy conversion is due to both electric control and wave tunneling. We perform a thorough numerical analysis of a GaAs-based NF-TPX device, by coupling a near-field radiative heat transfer solver based on fluctuational electrodynamics with an algorithm based on a simplified version of the drift-diffusion equations in 1D. This allows for the investigation of the emission and absorption profiles in the LED and the photovoltaic (PV) cell, and for the scrutiny of the impact of key parameters. We also demonstrate that the performance obtained with this algorithm can approach idealized cases for improved devices. For the considered simplified architecture and 300 K temperature difference, we find a power density output of 1 W.cm−2 , underlining the potential for waste heat harvesting close to ambient temperature.

Domaines

Optique [physics.optics]

Fichier principal

GaAs-Based Near-Field Thermophotonic Devices.pdf (1.37 Mo)

FIG1_Schematic.pdf (38.16 Ko)

FIG2a_EmLED.pdf (33.93 Ko)

FIG2b_AbsPV.pdf (32.85 Ko)

FIG2c_EmwLED.pdf (231.64 Ko)

FIG2d_AbswPV.pdf (275.39 Ko)

FIG2e_AbswIn.pdf (45.18 Ko)

FIG3a_0D_T.pdf (11.78 Ko)

FIG3b_0D_d.pdf (24.27 Ko)

FIG4a_FullIV.pdf (216.78 Ko)

FIG4b_IV.pdf (25.58 Ko)

FIG4c_SimpIV.pdf (18.92 Ko)

FIG5_Dtau.pdf (12.06 Ko)

FIG6a_ELED.pdf (47.54 Ko)

FIG6b_EPV.pdf (44.27 Ko)

FIG6c_VLED.pdf (11.47 Ko)

FIG6d_VPV.pdf (10.23 Ko)

FIG6e_EfLED.pdf (12.94 Ko)

FIG6f_EfPV.pdf (11.65 Ko)

Origine : Fichiers produits par l'(les) auteur(s)

Julien Legendre : Connectez-vous pour contacter le contributeur

https://hal.science/hal-03294468

Soumis le : mercredi 9 mars 2022-12:21:47

Dernière modification le : vendredi 24 mars 2023-14:53:26

Dates et versions

hal-03294468 , version 1 (16-08-2021)

hal-03294468 , version 2 (06-01-2022)

hal-03294468 , version 3 (09-03-2022)

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HAL Id : hal-03294468 , version 3
ARXIV : 2109.09454
DOI : 10.1016/j.solmat.2022.111594

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Julien Legendre, Pierre-Olivier Chapuis. GaAs-Based Near-Field Thermophotonic Devices: Approaching The Idealized Case With One-Dimensional PN Junctions. Solar Energy Materials and Solar Cells, 2022, 238, pp.111594. ⟨10.1016/j.solmat.2022.111594⟩. ⟨hal-03294468v3⟩

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GaAs-Based Near-Field Thermophotonic Devices: Approaching The Idealized Case With One-Dimensional PN Junctions

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