Patrick M. Fourspring scite author profile

Abstract. Thermophotovoltaic (TPV) diodes fabricated from 0.52eV lattice-matched InGaAsSb alloys are grown by Metal Organic Vapor Phase Epitaxy (MOVPE) on GaSb substrates. 4cm 2 multi-chip diode modules with front-surface spectral filters were tested in a vacuum cavity and attained measured efficiency and power density of 19% and 0.58 W/cm 2 respectively at operating at temperatures of T radiator = 950 °C and T diode = 27 °C. Device modeling and minority carrier lifetime measurements of double heterostructure lifetime specimens indicate that diode conversion efficiency is limited predominantly by interface recombination and photon energy loss to the GaSb substrate and back ohmic contact. Recent improvements to the diode include lattice-matched p-type AlGaAsSb passivating layers with interface recombination velocities less than 100 cm/s and new processing techniques enabling thinned substrates and back surface reflectors. Modeling predictions of these improvements to the diode architecture indicate that conversion efficiencies from 27-30% and ~0.85 W/cm 2 could be attained under the above operating temperatures.

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Optical coatings for thermophotovoltaic spectral control

Fourspring

DePoy

Rahmlow

et al. 2006

Appl. Opt.

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show abstract

Optical coatings for thermophotovoltaic spectral control

Fourspring

DePoy

Rahmlow

et al. 2004

View full text Add to dashboard Cite

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