用于电子应用的石墨烯基复合薄膜的新方法

2013 International Conference on Current Trends in Engineering and Technology (ICCTET) Pub Date : 2013-07-03 DOI:10.1109/ICCTET.2013.6675943

G. Arthi, S. Balaji, J. Jaya

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引用次数: 0

摘要

描述了以功能化石墨烯片(FGS)为填料，聚苯乙烯(PS)为主体材料的溶液处理复合薄膜的电学性能。我们证明了石墨烯基复合薄膜上的晶体管表现出双极性场效应特征，表明在绝缘PS矩阵中的FGS之间通过渗透进行传输。器件特性作为FGS尺寸的函数[1]也有报道。结果表明，使用最大尺寸的FGS制造的器件产生最高的迁移率值。这种基于商品塑料的简单且可扩展的制造方案可用于低成本的宏观电子产品。

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A novelapprochof graphene-based composite thin films for electronics applications

The electrical properties of solution-processed composite thin films, consisting of functionalized graphene sheets (FGS) as the filler and polystyrene (PS) as the host material are described. We demonstrate that transistors from graphene-based composite thin films exhibit ambipolar field effect characteristics, suggesting transport via percolation among FGS in the insulating PS matrix. Device characteristics as a function of the [1]FGS size are also reported. The results indicate that devices fabricated using the largest size FGS yield the highest mobility values. This simple and scalable fabrication scheme based on a commodity plastic could be useful for low-cost, macro-scale electronics.

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2013 International Conference on Current Trends in Engineering and Technology (ICCTET)

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