Title :
Comparison of Direct Growth and Wafer Bonding for the Fabrication of GaInP/GaAs Dual-Junction Solar Cells on Silicon
Author :
Dimroth, Frank ; Roesener, Tobias ; Essig, Stephanie ; Weuffen, Christoph ; Wekkeli, Alexander ; Oliva, Eduard ; Siefer, Gerald ; Volz, K. ; Hannappel, Thomas ; Haussler, Dietrich ; Jager, Wolfgang ; Bett, Andreas W.
Author_Institution :
Fraunhofer Inst. for Solar Energy Syst. ISE, Freiburg, Germany
Abstract :
Two different process technologies were investigated for the fabrication of high-efficiency GaInP/GaAs dual-junction solar cells on silicon: direct epitaxial growth and layer transfer combined with semiconductor wafer bonding. The intention of this research is to combine the advantages of high efficiencies in III-V tandem solar cells with the low cost of silicon. Direct epitaxial growth of a GaInP/GaAs dual-junction solar cell on a GaAsyP1-y buffer on silicon yielded a 1-sun efficiency of 16.4% (AM1.5g). Threading dislocations that result from the 4% lattice grading are still the main limitation to the device performance. In contrast, similar devices fabricated by semiconductor wafer bonding on n-type inactive Si reached efficiencies of 26.0% (AM1.5g) for a 4-cm2 solar cell device.
Keywords :
III-V semiconductors; dislocations; gallium arsenide; gallium compounds; indium compounds; semiconductor epitaxial layers; semiconductor growth; solar cells; vapour phase epitaxial growth; wafer bonding; GaInP-GaAs; III-V tandem solar cells; Si; direct epitaxial growth; dual-junction solar cells; efficiency 16.4 percent; efficiency 26.0 percent; lattice grading; semiconductor wafer bonding; threading dislocations; Epitaxial growth; Gallium arsenide; Photovoltaic cells; Photovoltaic systems; Silicon; Substrates; Heterojunctions; III–V multijunction solar cells; silicon; wafer bonding;
Journal_Title :
Photovoltaics, IEEE Journal of
DOI :
10.1109/JPHOTOV.2014.2299406
