In this study, a thermally triggered self-reducible copper ink is developed to print conductive patterns on flexible substrates. Inks containing only copper formate (CuF) and monoisopropanol amine (MIPA) generated large bubbles in the CuF decomposing process, and thus the surface morphologies of prepared thin films were largely disturbed. With the addition of octylamine (OA), the bubbling disturbance was relieved due to the lower surface tension and the film uniformity was greatly improved. A low resistivity of 2 x 10(-7) Omega m (8.5% of bulk copper) can be reached by heating the ink at 140 degrees C for 5 minutes under a nitrogen environment. XRD results showed the synthesized copper films were comprised of pure metallic copper crystalline. The copper films were composed of closely packed spherical grains of 50 to 500 nm in diameter. After the addition of 1 wt% polyvinylpyrrolidone (PVP) in the ink, the synthesized copper thin films showed great adhesion on glass substrates, and sustained the same conductivity after repeated tape tests. The ink can also be printed on flexible substrates, such as polyethylene terephthalate (PET) or polyimide (PI) thin films, to create highly-conductive tracks with a strong mechanical stability. Finally, various conductive patterns were printed on flexible substrates to show the great potential of this ink for various printed electronic applications.
展开▼
机译:在这项研究中,开发了一种热触发自还原铜油墨,以在柔性基板上印刷导电图案。仅包含甲酸铜(CuF)和一异丙醇胺(MIPA)的油墨在CuF分解过程中产生大气泡,因此,所制备薄膜的表面形貌受到很大干扰。加入辛胺(OA)后,由于较低的表面张力,可消除起泡干扰,并大大提高了膜的均匀性。通过在氮气环境下将墨水在140摄氏度下加热5分钟,可以实现2 x 10(-7)Ω的低电阻率(占主体铜的8.5%)。 XRD结果表明合成的铜膜由纯金属铜晶体组成。铜膜由紧密堆积的直径为50至500 nm的球形晶粒组成。在油墨中添加1 wt%的聚乙烯吡咯烷酮(PVP)后,合成的铜薄膜在玻璃基板上显示出良好的附着力,并在重复的胶带测试后保持了相同的导电性。油墨也可以印刷在柔性基材上,例如聚对苯二甲酸乙二酯(PET)或聚酰亚胺(PI)薄膜,以创建具有强机械稳定性的高导电性印痕。最后,在柔性基板上印刷了各种导电图案,以显示这种油墨在各种印刷电子应用中的巨大潜力。
展开▼
