DocumentCode :
1488100
Title :
Open-Circuit Voltage Improvement of InAs/GaAs Quantum-Dot Solar Cells Using Reduced InAs Coverage
Author :
Bailey, Christopher G. ; Forbes, David V. ; Polly, Stephen J. ; Bittner, Zachary S. ; Dai, Yun ; Mackos, C. ; Raffaelle, Ryne P. ; Hubbard, Seth M.
Author_Institution :
Rochester Institute of Technology, Rochester, USA
Volume :
2
Issue :
3
fYear :
2012
fDate :
7/1/2012 12:00:00 AM
Firstpage :
269
Lastpage :
275
Abstract :
Ten-, 20-, and 40-layer InAs/GaAs quantum-dot (QD)-embedded superlattice solar cells were compared with a baseline GaAs p-i-n solar cell. Proper strain balancing and a reduction of InAs coverage value in the superlattice region of the QD embedded devices enabled the systematic increase in short-circuit current density with QD layers (0.02-mA/cm 
/QD layer) with minimal open-circuit voltage loss (∼50 mV). The improvement in voltage was found to be due to a reduced nonradiative recombination resulting from a reduced density of larger defective QDs and effective strain management. The 40-layer device exceeded the baseline GaAs cell by 0.5% absolute efficiency improving efficiency relative to the baseline by 3.6%.
Keywords :
Gallium arsenide; PIN photodiodes; Photovoltaic cells; Quantum dots; Strain; Superlattices; InAs coverage; InAs/GaAs; nanostructured solar cells; quantum dots (QDs); strain balance; strain compensation; superlattice;
fLanguage :
English
Journal_Title :
Photovoltaics, IEEE Journal of
Publisher :
ieee
ISSN :
2156-3381
Type :
jour
DOI :
10.1109/JPHOTOV.2012.2189047
Filename :
6179500
Link To Document :
