Liu Wing Chung, Prentice Joseph C A, Patrick Christopher E, Watt Andrew A R
Department of Materials, University of Oxford, 16 Parks Road, Oxford OX1 3PH, United Kingdom.
ACS Appl Mater Interfaces. 2024 Jan 24;16(3):4150-4159. doi: 10.1021/acsami.3c15207. Epub 2024 Jan 10.
Solution processable metallic nanomaterials present a convenient way to fabricate conductive structures, which are necessary in all electronic devices. However, they tend to require post-treatments to remove the bulky ligands around them to achieve high conductivity. In this work, we present a method to formulate a post-treatment free conductive silver nanowire ink by controlling the type of ligands around the silver nanowires. We found that bidentate ligands with a rigid molecular structure were effective in improving the conductivity of the silver nanowire networks as they could maximize the number of linkages between neighboring nanowires. In addition, DFT calculations also revealed that ligands with good LUMO to silver energy alignment were more effective. Because of these reasons, fumaric acid was found to be the most effective ligand and achieved a large reduction in sheet resistance of 70% or higher depending on the nanowire network density. The concepts elucidated from this study would also be applicable to other solution processable nanomaterials systems such as quantum dots for photovoltaics or LEDs which also require good charge transport being neighboring nanoparticles.
可溶液加工的金属纳米材料为制造导电结构提供了一种便捷的方法,而导电结构在所有电子设备中都是必不可少的。然而,它们往往需要进行后处理以去除其周围庞大的配体,从而实现高导电性。在这项工作中,我们提出了一种方法,通过控制银纳米线周围配体的类型来配制一种无需后处理的导电银纳米线墨水。我们发现,具有刚性分子结构的双齿配体在提高银纳米线网络的导电性方面是有效的,因为它们可以使相邻纳米线之间的连接数最大化。此外,密度泛函理论计算还表明,具有良好的最低未占分子轨道与银能量匹配的配体更有效。由于这些原因,发现富马酸是最有效的配体,根据纳米线网络密度的不同,其表面电阻大幅降低了70%或更高。从这项研究中阐明的概念也将适用于其他可溶液加工的纳米材料系统,如用于光伏或发光二极管的量子点,这些系统同样需要相邻纳米颗粒之间有良好的电荷传输。
