Optimization of GaAs 1-x Px/Si Tandem Dual-Junction Solar Cells

机译：GaAs 1-X / INF> P X / SI串联双结太阳能电池的优化

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In order to attest the feasibility and the concept of great-quality III - V devices, we focus our actual work on the developing of a tandem dual-junction solar cell, including a GaAS_1-xP_x top cell and a Si bottom cell. A simulation study of the top cell was performed. The impact of GaAS_1-xP_x absorber layer thicknesses, the temperature, and P composition x on cell efficiency are evidenced. In these structures, a tunnel junction was needed to interconnecting both the bottom and top cell. We comparing the simulated performance of two tunnel junction structure and we will show that the use of the GaAs (n+)/GaAs (p+) tunnel junction improve the performance of the current-voltage characteristics. An optimal efficiency of about 16.27% was obtained with a thickness of about 1-m, P fraction x = 0.37 and a temperature of 285 K.

机译：为了证明优质III - V设备的可行性和概念，我们将我们的实际工作集中在串联双结太阳能电池的发展，包括GaAs_{1-x P._{x 顶部细胞和Si底部细胞。进行了顶部细胞的模拟研究。 GaAs的影响_{1-x P._{x 显着的吸收层厚度，温度和P组合物X的电池效率。在这些结构中，需要隧道结以互连底部和顶部电池。我们比较两个隧道结结构的模拟性能，我们将显示GaAs（N +）/ GaAs（P +）隧道结的使用提高了电流 - 电压特性的性能。获得的最佳效率约为16.27℃，厚度为约1-m，p馏分x = 0.37和285k的温度。}}}}

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《International Conference on Communications and Electrical Engineering》|2018年|1 v.|共3页
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作者
Ahmed bahi azzououm; Abdelkader Aissat; Fethi Benyettou; Jean Pierre Vilcot;
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中图分类能源与动力工程;
关键词
Silicon; Photovoltaic cells; Junctions; Gallium arsenide; Temperature; Photovoltaic systems;

机译：硅;光伏电池;结;砷化镓;温度;光伏系统;

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5. Optimization of GaAs 1-x Px/Si Tandem Dual-Junction Solar Cells [C] . Ahmed bahi azzououm, Abdelkader Aissat, Fethi Benyettou, 2018 International Conference on Communications and Electrical Engineering . 2018

机译：GaAs 1-x P x / Si串联双结太阳能电池的优化
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Optimization of GaAs 1-x Px/Si Tandem Dual-Junction Solar Cells

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