2010
DOI: 10.1063/1.3427392
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Fabrication of InAs/GaAs quantum dot solar cells with enhanced photocurrent and without degradation of open circuit voltage

Abstract: We report the fabrication of InAs/GaAs quantum dot solar cells (QDSCs) with enhanced photocurrent and no degradation in open circuit voltage (VOC) compared to a solar cell grown without QDs and composed solely of wetting layers. Notably, the achievement of such high VOC does not require electronic coupling. We report QDSCs with a light absorption range extended up to 1.3 μm and evidence a trade-off between VOC and QD ground-state energy. These results are of major significance to the design of high efficiency … Show more

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Cited by 232 publications
(156 citation statements)
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“…QDs of the desired size (down to 2-3 nm) have been produced through this technique 50 and can be implemented with several material options that give a bandgap distribution close to the optimum value of 1.95 eV, with good lattice matching. Nevertheless, some carefully manufactured InAs/GaAs cells have already presented minor voltage reductions 18,19 and are therefore probably already operating as IB cells at room temperature.…”
Section: Summary and Challengesmentioning
confidence: 99%
“…QDs of the desired size (down to 2-3 nm) have been produced through this technique 50 and can be implemented with several material options that give a bandgap distribution close to the optimum value of 1.95 eV, with good lattice matching. Nevertheless, some carefully manufactured InAs/GaAs cells have already presented minor voltage reductions 18,19 and are therefore probably already operating as IB cells at room temperature.…”
Section: Summary and Challengesmentioning
confidence: 99%
“…The absorption of sub-bandgap photons and the possibility of minimal degradation of the open circuit voltage in comparison with single junction GaAs solar cells have been reported. [15][16][17] The absorption energies for the InAs/GaAs system are, in principle,…”
Section: A Theoretical Modelmentioning
confidence: 99%
“…1. Several groups have manufactured QDIBSCs following this approach [5][6][7][8][9] and experimentally demonstrated some of the principles of IBSC operation, such as the production of electron-hole pairs by below-bandgap energy photons 10 or the existence of quasi-Fermi level separation between the CB and IB. 11 However, the experimental work carried out so far has also allowed identifying the factors that prevent boosting the efficiency of realistic QDIBSCs above that of single gap solar cells.…”
Section: On Inhibiting Auger Intraband Relaxation In Inas/gaas Quantumentioning
confidence: 99%