Abstract
Following the detailed balance principle, we have systematically investigated the electricity generation from the infrared thermal radiation by 6.1Å Sb-based converters. By simulating the converters in their possible single/multiple-junction configurations, the GaSb lattice-matched InAs0.91Sb0.09 alloy has been demonstrated not only to be an attractive converter for a broadband emitter operating at 1200–1500K but also a potential subcell candidate to design high-performance tandem converters. To construct the tandem converters, it is shown that, for both mechanically-stacked and series-interconnected configurations, the GaInAsSb alloy's optimum bandgap Ego dependence on the emitter temperature TBB easily yields a quadratic equation Ego=αTBB2+βTBB+γ with α, β, and γ the fitted structure-dependent parameters. These results provide some favorable guidelines to develop more powerful thermophotovoltaic devices.
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