Wide-Bandgap InAs/InGaP Quantum-Dot Intermediate Band Solar Cells

Wide-Bandgap InAs/InGaP Quantum-Dot Intermediate Band Solar Cells

Current prototypes of quantum-dot intermediate band solar cells suffer from voltage reduction due to the existence of thermal carrier escape. An enlarged subbandgap E L would not only minimize this problem but would lead to a bandgap distribution that exploits more efficiently the solar spectrum. In...

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Veröffentlicht in:IEEE journal of photovoltaics 2015-05, Vol.5 (3), p.840-845
Hauptverfasser: Ramiro, Inigo, Villa, Juan, Phu Lam, Hatch, Sabina, Jiang Wu, Lopez, Esther, Antolin, Elisa, Huiyun Liu, Marti, Antonio, Luque, Antonio
Format: Artikel
Sprache:eng
Schlagworte:
Energy measurement
Gallium arsenide
Intermediate band (IB)
intraband absorption
Photoconductivity
Photonic band gap
Photovoltaic cells
Quantum dots
solar cell characterization
Temperature measurement
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Zusammenfassung:Current prototypes of quantum-dot intermediate band solar cells suffer from voltage reduction due to the existence of thermal carrier escape. An enlarged subbandgap E L would not only minimize this problem but would lead to a bandgap distribution that exploits more efficiently the solar spectrum. In this study, we demonstrate InAs/InGaP QD-IBSC prototypes with the following bandgap distribution: E G = 1.88 eV, E H = 1.26 eV, and E L > 0.4 eV. We have measured, for the first time in this material, both the interband and intraband transitions by means of photocurrent experiments. The activation energy of the carrier thermal escape in our devices has also been measured. It is found that its value, compared with InAs/GaAs-based prototypes, does not follow the increase in E L . The benefits of using thin-AlGaAs barriers before and after the quantum-dot layers are analyzed.
ISSN:2156-3381
2156-3403
DOI:10.1109/JPHOTOV.2015.2402439