Publication: Gallium Antimonide Thermophotovoltaic: Simulation and Electrical Characterization under Different Spectral Filtration Wavelengths
Date
2020
Authors
Suliza W.E.
Rashid W.A.
Jamaludin M.Z.
Rahman N.A.
Gamel M.M.A.
Lee H.J.
Ker P.J.
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Electrical and Electronics Engineers Inc.
Abstract
Gallium Antimonide (GaSb) Thermophotovoltaic (TPV) cell is a well-known device for waste-heat harvesting technology. To date, the conversion efficiency of the GaSb TPV cell remains low due to the presence of electrical and spectral losses. In this study, a GaSb TPV cell model is developed using the Silvaco TCAD simulation software. Validation on the simulation model was performed under atmospheric (AM) 1.5 standard test condition (STC) and TPV illumination conditions. Through the validation processes, a set of GaSb physical parameters that are reliable to be used for GaSb TPV cell simulation was established. Under AM1.5 testing condition, the electrical characteristic and performance of GaSb TPV of the reference cell were obtained from an experimental characterization on commercialized devices. A deviation in fill factor and cell efficiency was found between the cell sample and simulation model under AM1.5 illumination. This is due to the presence of resistance losses in the device. Nevertheless, a percentage error of below 3% was achieved under 1200 � C TPV spectrum. Besides, it was found that a spectral filter that cuts at 2 ?m increases the cell efficiency from 11.51% to 19.10% with a power output of 1.33 W/cm2. The finding in this study demonstrates the importance of minimizing the electrical losses and the determination of an optimal filtered spectrum wavelength for developing highperformance GaSb TPV cell. � 2020 IEEE.
Description
Cells; Computer software; Cytology; Efficiency; Gallium; III-V semiconductors; Photonics; Semiconducting antimony compounds; Verification; Waste heat; Electrical characteristic; Electrical characterization; Experimental characterization; Illumination conditions; Physical parameters; Standard test condition (STC); Thermophoto voltaic cells; Waste heat harvesting; Gallium compounds