Jung Soo-Ho, Choi Dong Yun, Lee Hye Moon
Powder & Ceramics Division, Korea Institute of Materials and Science Changwondaero 797, Seongsan-gu Changwon 51508 Korea
RSC Adv. 2018 May 30;8(36):19950-19957. doi: 10.1039/c8ra03303j.
In this study, a roll-to-roll (R2R) process for the large-scale fabrication of aluminum thin films on flexible polyimide (PI) films is proposed. The R2R machine for Al-film coating assembled in the current work uses a previously reported Al etherate-based precursor ink as the source. After the PI substrate is exposed to a diluted catalyst, the Al precursor ink is coated directly on to the substrate by a slit-die coating method. To optimize the injection of the Al precursor ink, a low-flow limit was established. At a film speed of 5 cm s, the width of the fabricated Al film was 130 mm. Such Al-coated films exhibit many advantageous features, including 5.87 × 10 S m of high electrical conductivity at 60.9 nm film thickness and high durability with good adhesion. There was only a minor change in the resistance of the film when it was heated at 100 °C in an oven for 10 days or when it was exposed to HO or ethyl alcohol. Flexibility and tape testing was also conducted and the film showed robustness in both cases. Touch panels (7 cm × 9 cm) were fabricated using the fabricated Al-coated film as one side of the panel; the panel showed enough sensitivity to write recognizable letters on the computer. This indicates that the fabricated Al films can be applied in actual electronic devices without further complicated processing.
在本研究中,提出了一种用于在柔性聚酰亚胺(PI)薄膜上大规模制备铝薄膜的卷对卷(R2R)工艺。当前工作中组装的用于铝膜涂层的R2R机器使用先前报道的基于醇铝的前驱体油墨作为原料。在PI基板暴露于稀释的催化剂后,通过狭缝模头涂布法将铝前驱体油墨直接涂布在基板上。为了优化铝前驱体油墨的注入,确定了一个低流量限制。在薄膜速度为5 cm/s时,制备的铝膜宽度为130 mm。这种铝涂层薄膜具有许多有利特性,包括在薄膜厚度为60.9 nm时具有5.87×10 S/m的高电导率以及具有良好附着力的高耐久性。当薄膜在烘箱中于100°C加热10天或暴露于水或乙醇时,薄膜电阻仅有微小变化。还进行了柔韧性和胶带测试,薄膜在两种情况下均表现出坚固性。使用制备的铝涂层薄膜作为面板的一侧制作了触摸面板(7 cm×9 cm);该面板显示出足够的灵敏度,可以在计算机上书写可识别的字母。这表明制备的铝膜无需进一步复杂加工即可应用于实际电子设备中。
