Title :
Design and fabrication of nano-pyramid GaAs solar cell
Author :
Yangsen Kang ; Dong Liang ; Yijie Huo ; Anjia Gu ; Shuang Li ; Yusi Chen ; Harris, J.
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., Stanford, CA, USA
Abstract :
We demonstrate a genetic method to fabricate large-area nano-structure III-V solar cells with conformal epitaxial growth on pre-patterned substrate. The design, simulation, fabrication, and characterization of a nano-structure gallium arsenide (GaAs) solar cell device are presented. The optical simulation illustrates that the nano-pyramid array is able to suppress the reflection and enhance the absorption in a wide spectrum range. The IV characterization shows that the short circuit current of the nano-pyramid GaAs solar cell with 200 nm thick junction is as high as 18.5 mA/cm2, which is more than triple of the planar cell. Our results suggest this nano-structure thin film absorber could significantly reduce epitaxial growth cost and increase yield, thus provides a pathway towards high-efficiency and low-cost solar cells.
Keywords :
III-V semiconductors; antireflection coatings; gallium arsenide; nanophotonics; nanostructured materials; optical design techniques; optical fabrication; solar cells; GaAs; absorption enhancement; conformal epitaxial growth; genetic method; large area nanostructure solar cells; nanopyramid array; nanopyramid solar cell; nanostructure thin film absorber; optical simulation; prepatterned substrate; reflection supression; size 200 nm; Absorption; Arrays; Epitaxial growth; Fabrication; Gallium arsenide; Nanoscale devices; Photovoltaic cells; gallium arsenide; light trapping; photovoltaic cells; semiconductor growth; thin film nano-structures;
Conference_Titel :
Photovoltaic Specialists Conference (PVSC), 2013 IEEE 39th
Conference_Location :
Tampa, FL
DOI :
10.1109/PVSC.2013.6745161
