通过还原氧化石墨烯提高溶液加工银纳米线透明电极的热氧化稳定性。

Improved thermal oxidation stability of solution-processable silver nanowire transparent electrode by reduced graphene oxide.

机构信息

Department of Energy Systems Engineering, Daegu Gyeongbuk Institute of Science and Technology (DGIST), 50-1 Sang-Ri, Hyeonpung-Myeon, Dalseong-Gun, Daegu, 711-873, Korea.

出版信息

ACS Appl Mater Interfaces. 2012 Dec;4(12):6410-4. doi: 10.1021/am301913w. Epub 2012 Dec 13.

DOI:10.1021/am301913w

PMID:23206541

Abstract

Solution-processable silver nanowire-reduced graphene oxide (AgNW-rGO) hybrid transparent electrode was prepared in order to replace conventional ITO transparent electrode. AgNW-rGO hybrid transparent electrode exhibited high optical transmittance and low sheet resistance, which is comparable to ITO transparent electrode. In addition, it was found that AgNW-rGO hybrid transparent electrode exhibited highly enhanced thermal oxidation and chemical stabilities due to excellent gas-barrier property of rGO passivation layer onto AgNW film. Furthermore, the organic solar cells with AgNW-rGO hybrid transparent electrode showed good photovoltaic behavior as much as solar cells with AgNW transparent electrode. It is expected that AgNW-rGO hybrid transparent electrode can be used as a key component in various optoelectronic application such as display panels, touch screen panels, and solar cells.

摘要

为了替代传统的 ITO 透明电极，制备了可溶液加工的银纳米线还原氧化石墨烯（AgNW-rGO）杂化透明电极。AgNW-rGO 杂化透明电极表现出高透光率和低方阻，与 ITO 透明电极相当。此外，由于 rGO 钝化层对 AgNW 薄膜具有优异的气体阻隔性能，发现 AgNW-rGO 杂化透明电极表现出高度增强的热氧化和化学稳定性。此外，具有 AgNW-rGO 杂化透明电极的有机太阳能电池表现出与具有 AgNW 透明电极的太阳能电池相当的良好光伏性能。预计 AgNW-rGO 杂化透明电极可用作各种光电应用的关键组件，如显示面板、触摸屏面板和太阳能电池。

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通过还原氧化石墨烯提高溶液加工银纳米线透明电极的热氧化稳定性。

Improved thermal oxidation stability of solution-processable silver nanowire transparent electrode by reduced graphene oxide.

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