Julien Legendre scite author profile

In a thermophotonic device used in an energy-harvesting configuration, a hot light-emitting diode (LED) is coupled to a photovoltaic (PV) cell by means of electroluminescent radiation in order to produce electrical power. Using fluctuational electrodynamics and the drift-diffusion equations, we optimize a device made of an AlGaAs PIN LED and a GaAs PIN PV cell with matched bandgaps. We find that the LED can work as an efficient heat pump only in the near field, where radiative heat transfer is increased by wave tunneling. A key reason is that non-radiative recombination rates are reduced compared to radiative ones in this regime. At 10 nm gap distance and for [Formula: see text] effective surface recombination velocity, the power output can reach [Formula: see text] for a 600 K LED, which highlights the potential for low-grade energy harvesting.

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A study of AlGaAs PIN homojunctions for near-field thermophotonic applications (Conference Presentation)

Legendre¹,

Chapuis²

2023

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Thermodynamics of AlGaAs near-field thermophotonic devices for energy harvesting and cooling purposes

Legendre

Châtelet

Merchiers

et al. 2023

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Julien Legendre

GaAs-based near-field thermophotonic devices: Approaching the idealized case with one-dimensional PN junctions

Overcoming non-radiative losses with AlGaAs PIN junctions for near-field thermophotonic energy harvesting

A study of AlGaAs PIN homojunctions for near-field thermophotonic applications (Conference Presentation)

Thermodynamics of AlGaAs near-field thermophotonic devices for energy harvesting and cooling purposes

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