Faculty of Engineering and Graduate School of Chemical Sciences and Engineering , Hokkaido University , Sapporo 060-8628 , Japan.
ACS Appl Mater Interfaces. 2019 Mar 13;11(10):10118-10127. doi: 10.1021/acsami.8b18366. Epub 2019 Feb 26.
Novel transparent conductive electrodes (TCEs) with copper (Cu)/silver (Ag) core/shell nanofibers (NFs) containing random, aligned, and crossed structures were prepared using a combination of electrospinning (ES) and chemical reduction. The ES process was used to prepare continuous copper nanofibers (Cu-NFs), which were used as core materials and were then immersed in silver ink (Ag ink) to form a protective layer of Ag to protect the Cu-NFs from oxidation. The Ag shell layer protected the Cu-NFs against oxidation and enhanced their conductivity. Such Cu/Ag core/shell webs can be easily transferred on the flexible matrix and can be applied in TCEs. The metal NF webs of different structures exhibited various degrees of conductivity and followed the order random type > crossed type > aligned type; however, the order with respect to transmittance ( T) was inverse. The aligned nanowire networks exhibited a high T of over 80%, and the random ones exhibited a low sheet resistance of less than 10 Ω/sq (the best value is 7.85 Ω/sq). The present study demonstrated that TCEs based on Cu/Ag core/shell NF webs have considerable flexibility, transparency, and conductivity and can be applied in novel flexible light-emitting diode devices and solar cells in the future.
采用静电纺丝(ES)和化学还原相结合的方法制备了具有随机、对齐和交叉结构的铜(Cu)/银(Ag)核/壳纳米纤维(NF)的新型透明导电电极(TCE)。ES 工艺用于制备连续的铜纳米纤维(Cu-NFs),它们用作芯材,然后浸入银墨(Ag 墨)中形成 Ag 保护层,以防止 Cu-NFs 氧化。Ag 壳层保护 Cu-NFs 免受氧化并提高其导电性。这种 Cu/Ag 核/壳网可以很容易地转移到柔性基质上,并可应用于 TCE 中。不同结构的金属 NF 网表现出不同程度的导电性,遵循随机型>交叉型>对齐型的顺序;然而,透光率(T)的顺序是相反的。对齐的纳米线网络表现出超过 80%的高 T 值,而随机的则表现出低于 10 Ω/sq 的低方阻(最佳值为 7.85 Ω/sq)。本研究表明,基于 Cu/Ag 核/壳 NF 网的 TCE 具有相当的柔韧性、透明度和导电性,可应用于未来新型的柔性发光二极管器件和太阳能电池。
