A performance optimization and analysis of graphene based schottky barrier GaAs solar cell

机译：基于石墨烯的肖盖屏障GaAs太阳能电池性能优化与分析

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Performance optimization of Graphene-GaAs schottky barrier solar cell have been performed by considering variables such as substrate thickness, Graphene thickness, dependence between graphene work function and transmittance. The optimized parameter was extensively used to numerically model the design using TCAD Atlas. The results show the enhanced performance of the design with the optimized thickness of Graphene (0.3um) and GaAs (10μm), resulting in significant increase in power conversion efficiency from 0.732% to 2.581% and reasonable fill factor up to 70%. It was further analysed that maximum potential was developed in the vicinity of the anode, which results in better charge collection hence improving the overall performance of the solar cell. The results are validated with the reported experimental work.

机译：通过考虑诸如基板厚度，石墨烯厚度，石墨烯作用功能和透射率之间的依赖性的变量来进行石墨烯-GaAs肖特基屏障太阳能电池的性能优化。优化参数广泛用于使用TCAD Atlas进行数字模拟设计。结果表明，设计具有优化的石墨烯（0.3um）和GaAs（10μm）的优化厚度的性能，导致功率转换效率显着增加，从0.732％到2.581％，合理的填充因子高达70％。进一步分析了，在阳极附近开发的最大电位，这导致更好的电荷收集，从而提高太阳能电池的整体性能。结果验证了报告的实验工作。

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《International Conference on Aerospace, Mechanical and Mechatronic Engineering》|2017年|201p.|共7页
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Khomdram Jolson Singh; Dhanu Chettri; Thokchom Jayenta Singh;
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A performance optimization and analysis of graphene based schottky barrier GaAs solar cell

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