氧化镍/石墨烯/硅复合材料提高太阳能电池效率

2014 IEEE 40th Photovoltaic Specialist Conference (PVSC) Pub Date : 2014-06-08 DOI:10.1109/PVSC.2014.6925563

M. Mohammed, A. Al-Hilo, Tar-Pin Chen

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引用次数: 0

摘要

我们利用电沉积这一简单有效的方法制备了NiOx/石墨烯(PMS)双层Shottcky结。然后将n-Si/石墨烯(NMS) Shottcky结沉积在NiOx/石墨烯双层Shottcky结的顶部，形成双Shottcky太阳能电池。因此，这种双Shottcky组合包含一个n型Si/石墨烯(NMS) Shottcky结和一个p型NiOx/石墨烯(PMS) Shottcky结，一个整体的n-p结。对于不同的结，NiOx薄膜的厚度是不同的。NiOx薄膜作为太阳能电池的p型材料表现优异。利用SEM、EDX、UV、XRD和Raman等技术对这些太阳能电池材料和器件的物理性质进行了研究。还对这些样本进行了I-V研究。I-V特性曲线表明，随着NiOx薄膜厚度的增加，功率转换效率提高。

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Double Shottcky of NiOx/graphene/Si for enhance efficiency solar cells

We have used electro-deposition, a simple and effective method, to fabricate a NiOx/graphene (PMS) bilayer Shottcky junction. An n-Si/graphene (NMS) Shottcky junction was then deposited on top of the NiOx/graphene bilayer Shottcky junction to form a double Shottcky solar cell. This double Shottcky combination thus contains an n-type Si/grphene (NMS) Shottcky junction and a p-type NiOx/graphene (PMS) Shottcky junction, an overall n-p junction. The thicknesses of the NiOx film are different for different junctions. The NiOx films performed excellently as the p-type substance for the solar cells. SEM, EDX, UV, XRD, and Raman techniques were used to study the physical properties of these solar cell materials and devices. I-V studies were also carried out on these samples. The I-V characteristic curves show that the power conversion efficiency improves when the thickness of NiOx thin film is increased.

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2014 IEEE 40th Photovoltaic Specialist Conference (PVSC)

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