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银纳米线-石墨烯杂化透明导电电极用于高效倒置有机太阳能电池。

Silver nanowire-graphene hybrid transparent conductive electrodes for highly efficient inverted organic solar cells.

机构信息

State Key Laboratory of Silicon Materials, College of Information Science & Electronic Engineering, Zhejiang University, Hangzhou 310027, People's Republic of China. Department of Polymer Science and Engineering, Zhejiang University, Hangzhou 310027, People's Republic of China.

出版信息

Nanotechnology. 2017 Jul 28;28(30):305402. doi: 10.1088/1361-6528/aa7723. Epub 2017 Jun 5.

Abstract

Silver nanowires (AgNWs) and graphene are both promising candidates as a transparent conductive electrode (TCE) to replace expensive and fragile indium tin oxide (ITO) TCE. A synergistically optimized performance is expected when the advantages of AgNWs and graphene are combined. In this paper, the AgNW-graphene hybrid electrode is constructed by depositing a graphene layer on top of the network of AgNWs. Compared with the pristine AgNWs electrode, the AgNW-graphene TCE exhibits reduced sheet resistance, lower surface roughness, excellent long-term stability, and corrosion resistance in corrosive liquids. The graphene layer covering the AgNWs provides additional conduction pathways for electron transport and collection by the electrode. Benefiting from these advantages of the hybrid electrodes, we achieve a power conversion efficiency of 8.12% of inverted organic solar cells using PTB7:PCBM as the active layer, which is compared to that of the solar cells based on standard ITO TCE but about 10% higher than that based on AgNWs TCE.

摘要

银纳米线(AgNWs)和石墨烯都是有前途的透明导电电极(TCE)候选材料,可以替代昂贵且易碎的氧化铟锡(ITO)TCE。当 AgNWs 和石墨烯的优势结合在一起时,有望实现协同优化的性能。在本文中,通过在 AgNW 网络顶部沉积一层石墨烯来构建 AgNW-石墨烯杂化电极。与原始的 AgNWs 电极相比,AgNW-石墨烯 TCE 表现出更低的方阻值、更低的表面粗糙度、优异的长期稳定性和耐腐蚀性液体的腐蚀性。覆盖在 AgNWs 上的石墨烯层为电极的电子传输和收集提供了额外的导电途径。得益于这些混合电极的优势,我们使用 PTB7:PCBM 作为活性层,实现了倒置有机太阳能电池 8.12%的功率转换效率,与基于标准 ITO TCE 的太阳能电池相比,但比基于 AgNWs TCE 的太阳能电池高约 10%。

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