28%效率的砷化镓聚光太阳能电池

Conference Record of the Twentieth IEEE Photovoltaic Specialists Conference Pub Date : 1988-01-01 DOI:10.1109/PVSC.1988.105745

H. F. MacMillan, H. C. Hamaker, N. Kaminar, M. Kuryla, M. Ristow, D.D. Liu, G. Virshup, J. Gee

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引用次数: 40

摘要

AlGaAs/GaAs异质面太阳能聚光电池在高太阳浓度(>400个太阳，AM1.5D, 100 mW/cm/sup / 2/)下的效率超过27%，具有n/p和p/n结构。最好的n/p电池在400次太阳照射时效率为28.1%，而最好的p/n电池在1000次太阳照射时效率为27.5%。与早期的高效电池相比，这些GaAs聚光电池的高性能是由于改善了对金属有机化学气相沉积生长条件的控制和改进的电池制造工艺(网格线定义和边缘钝化)。利用计算机仿真程序确定了太阳能电池结构的设计参数和优化网格结构。对器件特性进行了评价，并对未来GaAs聚光电池的发展进行了讨论。

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28% efficient GaAs concentrator solar cells

AlGaAs/GaAs heteroface solar concentrator cells which exhibit efficiencies in excess of 27% at high solar concentrations (>400 suns, AM1.5D, 100 mW/cm/sup 2/) have been fabricated with both n/p and p/n configurations. The best n/p cell achieved an efficiency of 28.1% around 400 suns, and the best p/n cell achieved an efficiency of 27.5% around 1000 suns. The high performance of these GaAs concentrator cells compared to earlier high-efficiency cells was due to improved control of the metal-organic chemical vapor deposition growth conditions and improved cell fabrication procedures (gridline definition and edge passivation). The design parameters of the solar cell structures and optimized grid pattern were determined with a realistic computer modeling program. An evaluation of the device characteristics and a discussion of future GaAs concentrator cell development are presented.<>

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