Title :
Design of Passivation Layers on Axial Junction GaAs Nanowire Solar Cells
Author :
Ningfeng Huang ; Povinelli, Michelle L.
Author_Institution :
Ming Hsieh Dept. of Electr. Eng., Univ. of Southern California, Los Angeles, CA, USA
Abstract :
We design a surface passivation scheme for axial junction GaAs nanowire solar cells and simulate its performance by coupled optical and electrical simulations. This design uses a wide bandgap AlGaAs shell layer to generate modulation doping in the active region and protect photogenerated carriers from the surface and top contact. The design has both excellent optical and electrical properties and achieves 21.3% power conversion efficiency when using realistic material parameters, which is 2.7 times higher than an optimized bare nanowire. Furthermore, the design is largely insensitive to surface quality and junction position, assuming moderate bulk material quality.
Keywords :
III-V semiconductors; aluminium compounds; energy gap; gallium arsenide; nanowires; p-n junctions; passivation; semiconductor doping; solar cells; GaAs-AlGaAs; aluminum gallium arsenide shell layer; axial junction gallium arsenide nanowire solar cells; band gap; bulk material quality; electrical properties; modulation doping; optical properties; p-n junction; photogenerated carrier; surface passivation layers; surface quality; Absorption; Gallium arsenide; Junctions; Nanowires; Passivation; Photovoltaic cells; Device simulations; nanowires; photovoltaic cell; surface passivation;
Journal_Title :
Photovoltaics, IEEE Journal of
DOI :
10.1109/JPHOTOV.2014.2351624
