Article citationsMore>>
A. Freundlich, A. Fotkatzikis, L. Bhusal, L. Williams, A. Alemu, W. Zhu, J. A. H. Coaquira, A. Feltrin and G. Radhakrishnan, “III-V Dilute Nitride-Based Multi-Quantum Well Solar Cell,” Journal of Crystal Growth, Vol. 301-302, 2007, pp. 993-996.
doi:10.1016/j.jcrysgro.2006.11.256
has been cited by the following article:
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TITLE:
Modeling Multiple Quantum Well and Superlattice Solar Cells
AUTHORS:
Carlos I. Cabrera, Julio C. Rimada, Maykel Courel, Luis Hernandez, James P. Connolly, Agustín Enciso, David A. Contreras-Solorio
KEYWORDS:
Quantum Well; Strain in Solids; Solar Cell; Conversion Efficiency; Modeling
JOURNAL NAME:
Natural Resources,
Vol.4 No.3,
June
25,
2013
ABSTRACT: The inability of a single-gap solar cell to absorb energies less than the band-gap energy is one of the intrinsic loss mechanisms which limit the conversion efficiency in photovoltaic devices. New approaches to “ultra-high” efficiency solar cells include devices such as multiple quantum wells (QW) and superlattices (SL) systems in the intrinsic region of a p-i-n cell of wider band-gap energy (barrier or host) semiconductor. These configurations are intended to extend the absorption band beyond the single gap host cell semiconductor. A theoretical model has been developed to study the performance of the strain-balanced GaAsP/InGaAs/GaAs MQWSC, and GaAs/GaInNAs MQWSC or SLSC. Our results show that conversion efficiencies can be reached which have never been obtained before for a single-junction solar cell.