氧化铝封装的 n-石墨烯/ p-硅太阳能电池的环境稳定性增强和 12.5%的功率转换效率。

Enhanced Environmental Stability Coupled with a 12.5% Power Conversion Efficiency in an Aluminum Oxide-Encapsulated n-Graphene/p-Silicon Solar Cell.

出版信息

ACS Appl Mater Interfaces. 2018 Oct 31;10(43):37181-37187. doi: 10.1021/acsami.8b16322. Epub 2018 Oct 17.

Abstract

A significant improvement in the power conversion efficiency (PCE) and the environmental stability of n-Graphene/p-Si solar cells is indicated through effective n-doping of graphene, using low work function oxide capping layers. AlO , deposited through atomic layer deposition, is particularly effective for such doping and in addition serves as an antireflection coating and a cell encapsulating layer. It is shown that the related charge transfer doping and interfacial engineering was crucial to achieve a record PCE of 12.5%. The work indicates a path forward, through work function engineering, for further efficiency gains in Gr-based solar cells.

摘要

通过使用低功函数氧化物覆盖层对石墨烯进行有效掺杂，可显著提高 n-Graphene/p-Si 太阳能电池的功率转换效率（PCE）和环境稳定性。通过原子层沉积法沉积的 AlO ，对于这种掺杂非常有效，此外还可用作抗反射涂层和电池封装层。结果表明，相关的电荷转移掺杂和界面工程对于实现 12.5%的创纪录 PCE 至关重要。该工作通过功函数工程为基于 Gr 的太阳能电池进一步提高效率指明了方向。

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氧化铝封装的 n-石墨烯/ p-硅太阳能电池的环境稳定性增强和 12.5%的功率转换效率。

Enhanced Environmental Stability Coupled with a 12.5% Power Conversion Efficiency in an Aluminum Oxide-Encapsulated n-Graphene/p-Silicon Solar Cell.

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