Manufacturing of High-Efficiency Bi-Facial Tandem Concentrator Solar Cells: February 20, 2009--August 20, 2010 | |
Wojtczuk , S. | |
关键词: AVAILABILITY; BONDING; CONCENTRATOR SOLAR CELLS; CONCENTRATORS; EFFICIENCY; FABRICATION; MANUFACTURING; PROCESSING CPV; IMM; BI-FACIAL TANDEM; SOLAR CELLS; Solar Energy - Photovoltaics; | |
DOI : 10.2172/1018101 RP-ID : NREL/SR-5200-51767 PID : OSTI ID: 1018101 Others : Other: NAT-9-88012-04 Others : TRN: US201114%%106 |
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美国|英语 | |
来源: SciTech Connect | |
【 摘 要 】
Spire Semiconductor made concentrator photovoltaic (CPV) cells using a new bi-facial growth process and met both main program goals: a) 42.5% efficiency 500X (AM1.5D, 25C, 100mW/cm2); and b) Ready to supply at least 3MW/year of such cells at end of program. We explored a unique simple fabrication process to make a N/P 3-junction InGaP/GaAs/InGaAs tandem cells . First, the InGaAs bottom cell is grown on the back of a GaAs wafer. The wafers are then loaded into a cassette, spin-rinsed to remove particles, dipped in dilute NH4OH and spin-dried. The wafers are then removed from the cassette loaded the reactor for GaAs middle and InGaP top cell growth on the opposite wafer face (bi-facial growth). By making the epitaxial growth process a bit more complex, we are able to avoid more complex processing (such as large area wafer bonding or epitaxial liftoff) used in the inverted metamorphic (IMM) approach to make similar tandem stacks. We believe the yield is improved compared to an IMM process. After bi-facial epigrowth, standard III-V cell steps (back metal, photolithography for front grid, cap etch, AR coat, dice) are used in the remainder of the process.
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