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Inicio  /  Applied Sciences  /  Vol: 12 Par: 2 (2022)  /  Artículo
ARTÍCULO
TITULO

Growth and Fabrication of GaAs Thin-Film Solar Cells on a Si Substrate via Hetero Epitaxial Lift-Off

Seungwan Woo    
Geunhwan Ryu    
Taesoo Kim    
Namgi Hong    
Jae-Hoon Han    
Rafael Jumar Chu    
Jinho Bae    
Jihyun Kim    
In-Hwan Lee    
Deahwan Jung and Won Jun Choi    

Resumen

We demonstrate, for the first time, GaAs thin film solar cells epitaxially grown on a Si substrate using a metal wafer bonding and epitaxial lift-off process. A relatively thin 2.1 µm GaAs buffer layer was first grown on Si as a virtual substrate, and a threading dislocation density of 1.8 × 107 cm-2 was achieved via two In0.1Ga0.9As strained insertion layers and 6× thermal cycle annealing. An inverted p-on-n GaAs solar cell structure grown on the GaAs/Si virtual substrate showed homogenous photoluminescence peak intensities throughout the 2? wafer. We show a 10.6% efficient GaAs thin film solar cell without anti-reflection coatings and compare it to nominally identical upright structure solar cells grown on GaAs and Si. This work paves the way for large-scale and low-cost wafer-bonded III-V multi-junction solar cells.

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