Author
Listed:
- J. M. Burst
(National Renewable Energy Laboratory)
- J. N. Duenow
(National Renewable Energy Laboratory)
- D. S. Albin
(National Renewable Energy Laboratory)
- E. Colegrove
(National Renewable Energy Laboratory)
- M. O. Reese
(National Renewable Energy Laboratory)
- J. A. Aguiar
(National Renewable Energy Laboratory)
- C.-S. Jiang
(National Renewable Energy Laboratory)
- M. K. Patel
(Materials Science and Engineering, University of Tennessee)
- M. M. Al-Jassim
(National Renewable Energy Laboratory)
- D. Kuciauskas
(National Renewable Energy Laboratory)
- S. Swain
(Center for Materials Research, Washington State University)
- T. Ablekim
(Center for Materials Research, Washington State University)
- K. G. Lynn
(Center for Materials Research, Washington State University)
- W. K. Metzger
(National Renewable Energy Laboratory)
Abstract
CdTe solar cells have the potential to undercut the costs of electricity generated by other technologies, if the open-circuit voltage can be increased beyond 1 V without significant decreases in current. However, in the past decades, the open-circuit voltage has stagnated at around 800–900 mV. This is lower than in GaAs solar cells, even though GaAs has a smaller bandgap; this is because it is more difficult to achieve simultaneously high hole density and lifetime in II–VI materials than in III–V materials. Here, by doping the CdTe with a Group V element, we report lifetimes in single-crystal CdTe that are nearly radiatively limited and comparable to those in GaAs over a hole density range relevant for solar applications. Furthermore, the deposition on CdTe of nanocrystalline CdS layers that form non-ideal heterointerfaces with 10% lattice mismatch impart no damage to the CdTe surface and show excellent junction transport properties. These results enable the fabrication of CdTe solar cells with open-circuit voltage greater than 1 V.
Suggested Citation
J. M. Burst & J. N. Duenow & D. S. Albin & E. Colegrove & M. O. Reese & J. A. Aguiar & C.-S. Jiang & M. K. Patel & M. M. Al-Jassim & D. Kuciauskas & S. Swain & T. Ablekim & K. G. Lynn & W. K. Metzger, 2016.
"CdTe solar cells with open-circuit voltage breaking the 1 V barrier,"
Nature Energy, Nature, vol. 1(3), pages 1-8, March.
Handle:
RePEc:nat:natene:v:1:y:2016:i:3:d:10.1038_nenergy.2016.15
DOI: 10.1038/nenergy.2016.15
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