Development of MOVPE grown GaSb-on-GaAs interfacial misfit solar cells

GaSb grown on GaAs through interfacial misfit (IMF) arrays grown via molecular beam epitaxy has been heavily studied; there is limited research, however, on IMF growth through metal-organic vapor phase epitaxy. To demonstrate viability for integration in a multijunction solar cell for terrestrial us...

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Bibliographic Details
Published in:Journal of applied physics 2023-06, Vol.133 (24)
Main Authors: Kessler-Lewis, Emily S., Polly, Stephen J., Nelson, George T., Slocum, Michael A., Pokharel, Nikhil, Ahrenkiel, Phil, Hubbard, Seth M.
Format: Article
Language:English
Subjects:
Applied physics
Carrier lifetime
Diffusion length
Dislocation density
Epitaxial growth
Gallium antimonides
Gallium arsenide
Minority carriers
Molecular beam epitaxy
Open circuit voltage
Photovoltaic cells
Solar cells
Threading dislocations
Vapor phase epitaxy
Vapor phases
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Summary:GaSb grown on GaAs through interfacial misfit (IMF) arrays grown via molecular beam epitaxy has been heavily studied; there is limited research, however, on IMF growth through metal-organic vapor phase epitaxy. To demonstrate viability for integration in a multijunction solar cell for terrestrial use, it is imperative to demonstrate high quality GaSb grown on GaAs through metal-organic vapor phase epitaxy. The preferred gallium precursors for n-type and p-type GaSb for longest minority carrier diffusion length were determined to be trimethylgallium and triethylgallium, respectively. A heteroepitaxial GaSb-on-GaAs device attained an open-circuit voltage of 190 mV and an efficiency of 2.2%. Extracted threading dislocation density from the minority carrier lifetime for the heteroepitaxial GaSb-on-GaAs device was determined to be 7.5 × 10 6 cm − 2. In a modeled multijunction solar cell, this device attributes to an overall efficiency of 33.1% under AM1.5g illumination.
ISSN:0021-8979
1089-7550
DOI:10.1063/5.0141163