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The Microstructure of GaAs Grown on Glass Substrates by Molecular Beam Deposition

Published online by Cambridge University Press:  02 July 2020

Kim M. Jones ,
Dan J. Friedman  and
M.M. Al-Jassim
Kim M. Jones
Affiliation:
National Renewable Energy Laboratory, 1617 Cole Blvd., Golden, CO.80401
Dan J. Friedman
Affiliation:
National Renewable Energy Laboratory, 1617 Cole Blvd., Golden, CO.80401
M.M. Al-Jassim
Affiliation:
National Renewable Energy Laboratory, 1617 Cole Blvd., Golden, CO.80401
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Extract

In the mid to late 80's there was considerable effort directed at the hetroepitaxial growth of III-V's (GaAs, GaP and InP) on Si substrates for solar cell applications. The primary incentive for this work was the cost reduction of expensive substrate materials. This is particularly important when considering large scale production of terrestrial photovoltaic modules. In the U.S. these efforts produced cell efficiencies up to 21% and continued development of this solar cell structure is currently being pursued in Japan. Similar cost effective structures are being investigated at NREL such as the growth of polycrystalline GaAs films on inexpensive glass substrates for solar cell applications. Polycrystalline films, however, tend to contain a high density of grain boundaries which are regions for carrier recombination and enhanced dopant diffusion which can limit cell performance. In order to reduce the detrimental effects of grain boundaries, the growth of large grain (hence low boundary area) GaAs is being investigated

Type
Recent Developments in Microscopy for Studying Electronic and Magnetic Materials
Information
Microscopy and Microanalysis , Volume 3 , Issue S2: Proceedings: Microscopy & Microanalysis '97, Microscopy Society of America 55th Annual Meeting, Microbeam Analysis Society 31st Annual Meeting, Histochemical Society 48th Annual Meeting, Cleveland, Ohio, August 10-14, 1997 , August 1997 , pp. 481 - 482
Copyright
Copyright © Microscopy Society of America 1997

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References

1. Jones, K.M. and Al-Jassim, M.M., EMSA Proc. 47, 688, (1989).Google Scholar

2. Soga, et al., JAP 79, 9375, (1996).Google Scholar