铜纳米线的组成及强脉冲光烧结制备透明导电膜

IF 0.5 4区材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING

Journal of The Japan Institute of Metals Pub Date : 2017-01-01 DOI:10.2320/JINSTMET.J2017013

Yue Gao, Toshiyuki Ishina, Ding Su, Jiu Jinting, T. Sugahara, S. Nagao, K. Suganuma

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引用次数: 0

摘要

采用简单的水热法成功合成了价格低廉、电导率高的铜纳米线。作为表面活性剂的胺的分子量对铜合成产物的形貌有很大影响。作为︲合成的CuNWs被涂覆在衬底上，并在环境气氛中使用强脉冲光(IPL)技术进行处理。cunw表面的瞬时脱氧和分解有机物有助于透明导电膜的形成。具有低片阻13的薄膜。4 Ω /□，透光率高达79%。此外，通过将cunw涂层在柔性基板上并进行IPL烧结处理，还实现了可拉伸导体。[doi:10]2320 / jinstmet。[J2017013](收录用9,2017;2017年6月23日发布)

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Composition of Copper Nanowires and Preparation of Transparent Conductive Film by Intense Pulse Light Sintering

Copper nanowires （ CuNWs ） with low manufacture price and high electrical conductivity have been successfully synthesized by a simple hydrothermal process. The molecular weight of amine, which was used as surfactant, largely inﬂuenced the morphology of synthesis Cu products. As ︲ synthesized CuNWs were coated onto substrate and treated by intense pulse light （ IPL ） technique in ambient atmosphere. The instantaneous deoxidization and decomposition organics on the surface of the CuNWs contributed to the formation of transparent conductive ﬁlm. A ﬁlm with low sheet resistance of 13 . 4 Ω / □ and high transmittance of 79 ％ was obtained. Furthermore, stretchable conductor was also realized by coating the CuNWs onto flexible substrate and following IPL sintering treatment. ［ doi:10 . 2320 / jinstmet.J2017013 ］（ Received Accepted 9, 2017; Published June 23, 2017 ）

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