高效薄膜AlGaAs-GaAs双异质结构太阳能电池

Conference Record of the Twentieth IEEE Photovoltaic Specialists Conference Pub Date : 1988-01-01 DOI:10.1109/PVSC.1988.105741

R. Gale, R. McClelland, B. King, J. V. Gormley

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引用次数: 24

摘要

在10 μ m厚的薄膜上制备了AlGaAs-GaAs双异质结构太阳能电池，其单太阳总面积转换效率高达19.5% AM0, 22.4% AM1.5。该电池结构由氮掺杂GaAs发射极和p掺杂GaAs基底组成。该电池结构通过有机金属气相外延沉积在GaAs CLEFT衬底上，然后在电池制造过程中与衬底机械分离。采用单层增透涂层，不加盖玻璃。在直径为2英寸的晶圆上制造的细胞，具有1或4厘米/sup /的面积。成功地演示了基板的重用。相比之下，在大块GaAs衬底上沉积双异质结构的传统工艺制备的电池显示出高达23.7%的单太阳AM1.5效率。讨论了这些高效率对空间和地面应用的影响。

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High-efficiency thin-film AlGaAs-GaAs double heterostructure solar cells

AlGaAs-GaAs double-heterostructure solar cells were fabricated in 10 mu m-thick films and exhibited one-sun, total-area conversion efficiencies up to 19.5% AM0, and 22.4% AM1.5. The cell structure consisted on an n-doped GaAs emitter and p-doped GaAs base interposed between AlGaAs layers. The cell structure was deposited by organometallic vapor-phase epitaxy on a GaAs CLEFT substrate, and later mechanically separated from the substrate during cell fabrication. A single-layer antireflection coating was used without a coverglass. The cells, fabricated on 2 in diameter wafers, had areas of either 1 or 4 cm/sup 2/. Reuse of the substrate was successfully demonstrated. For comparison, cells fabricated with a conventional process from double heterostructures deposited on bulk GaAs substrates exhibited one-sun AM1.5 efficiencies as high as 23.7%. The impact of these high efficiencies on space and terrestrial applications is discussed.<>

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来源期刊

Conference Record of the Twentieth IEEE Photovoltaic Specialists Conference

CiteScore

1.40

自引率

0.00%

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