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Nanocrystalline silicon (nc-Si:H) and amorphous silicon (a-Si:H)based thin-film multijunction solar cell

机译：纳米晶硅（nc-Si：H）和非晶硅（a-Si：H）薄膜多结太阳能电池

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A novel thin-film multijunction solar cell based on nanocrystalline silicon (nc-Si:H) is presented in this paper. Existing thin-film double junction solar cells are based on amorphous silicon carbide (aSiC:H) and amorphous silicon layers. Such solar cells have limited efficiency due to lower absorption and poor charge transport properties of the a-SiC:H layer. These solar cells have maximum achieved efficiency of about 8.8%. In this work, a-SiC:H has been replaced with nc-Si:H layer and the double junction solar cell has been redesigned. The proposed structure has been simulated with Silvaco TCAD (ATLAS). The simulated results indicated a step increase in the performance of the solar cell with open circuit voltage Voc=2.096 V and efficiency η = 10.2%. It was proven that the nc-Si:H is a suitable material for the development of an efficient thin film multijunction solar cell.

机译：本文提出了一种新型的基于纳米晶硅的薄膜多结太阳能电池（nc-Si：H）。现有的薄膜双结太阳能电池基于非晶碳化硅（aSiC：H）和非晶硅层。由于a-SiC：H层的较低吸收和较差的电荷传输性质，这种太阳能电池效率有限。这些太阳能电池具有约8.8％的最大实现效率。在这项工作中，用nc-Si：H层代替了a-SiC：H，并重新设计了双结太阳能电池。拟议的结构已用Silvaco TCAD（ATLAS）进行了模拟。仿真结果表明，开路电压Voc = 2.096 V，效率η= 10.2％时，太阳能电池的性能逐步提高。事实证明，nc-Si：H是开发高效薄膜多结太阳能电池的合适材料。

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Shahzad Hussain; Haris Mehmood; Ghulam Ali;
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机译：高效，多Gap，多结，非晶硅基合金薄膜太阳能电池的研究：1987年3月1日 - 1987年8月31日的第1阶段半年分包合同报告。

Nanocrystalline silicon (nc-Si:H) and amorphous silicon (a-Si:H)based thin-film multijunction solar cell

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