Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6456891 | Solar Energy Materials and Solar Cells | 2017 | 9 Pages |
â¢GaSb/GaInAsSb(0.53 eV) tandem cell shows superior thermal radiation conversion.â¢An “S-type” response is observed for temperature-relying conversion efficiency.â¢Typical open-circuit voltage of tandem cell can be up to 0.80 V.â¢Tandem cell in its N-on-P(P-on-N) stack has a normal(inverted) doping profiles.
Beyond the ideal detailed balance evaluation, layer-dependent thermal radiation conversion has been systematically investigated here for tandem device consisting of a GaSb top subcell and a 0.53Â eV GaInAsSb bottom subcell. Relying on the experimentally-accessible material parameters, it is demonstrated here that tandem device in its N-on-P configuration displays a superior thermal conversion efficiency, and the proper doping profile should be controlled as Nd = 7-9 Ã 1017Â cmâ3 and Na = 5 Ã 1017Â cmâ3 for GaSb subcell while Nd = 6-7 Ã 1017Â cmâ3 and Na = 3.5 Ã 1017Â cmâ3 for 0.53Â eV GaInAsSb subcell. Moreover, due to different subcell-limited performance outputs, the dependence of thermal conversion efficiency on radiator temperature shows a remarkable “S-shape” feature, and the open-circuit voltage of tandem cell can be up to 0.7-0.8Â V for typical radiator temperatures. Finally, limited by the larger bandgap of GaSb material, superior thermal conversion efficiency can be always expected for tandem cell when comparing to GaSb cell, but only for radiator temperature larger than 1500Â K when comparing to 0.53Â eV GaInAsSb cell.