B. Conley, A. Mosleh, S. Ghetmiri, H. Naseem, J. Tolle, Shui-Qing Yu
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CVD growth of Ge1−xSnx using large scale Si process for higher efficient multi-junction solar cells
Multi-junction solar cell efficiency gains due to GeSn and SiGeSn have already shown that a need exists for significant advancement in growing this material in a commercially available CVD chamber. Ge1-xSnx films have been grown via an Epsilon RPCVD single wafer CVD deposition tool on Si using a relaxed Ge buffer layer. The material and optical properties of these films have been characterized for various compositions. We present the characterization of strained Ge1-xSnx with x = 0.9 % to 7 % and photoluminescence of Ge1-xSnx grown via a commercial CVD reactor. This commercial growth accessibility shows that this ternary material should allow for further advancements in multi-junction photovoltaics using Si CMOS compatible processes.
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