Thin Multilayer of Graphene as an Alternative to Indium Tin Oxide (ITO) in Touchscreens and Wearable Electronics

Energy and Environment Focus Pub Date : 2023-03-01 DOI:10.1166/eef.2023.1273

Syed Rayyan Hydri, K. Subramanian, R. George

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Abstract

Along with achieving great technological advances, graphene has achieved a great amount of popularity and interest from the world of science because of its enhanced physical, mechanical and thermal properties. The research output on graphene and its applications in various fields will be more. This investigation focusses on the fundamental aspects of graphene, which are exploring the flexible touch screens such as Smart Phones, Ipad, Smart TV. The effect of these results of new graphene displays are discussed. With the aid of experimental techniques involving pre-surface treatment, adhesion promoters, graphene layer thickness and theoretical modelling using Comsol, results are achieved. Different parameters were studied such as pre-cleaning time of the glass, weight of graphene in the graphene-ethanol suspension, use of adhesion promoter such as PMMA. It was found that optimum parameters are longer cleaning times (15 minutes), lower graphene weights (<0.032 g) and use of PMMA. In the modelling, layer by layer embedding of graphene over a glass substrate was analysed. Different characteristics were studied such as optical transparency, adhesion and electrical resistivity. Modelling of graphene over glass gave the results that layer thickness needs to be optimized with lower layer thickness (<2 * 10−5 cm) being better.

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多层石墨烯作为氧化铟锡(ITO)在触摸屏和可穿戴电子产品中的替代品

随着取得巨大的技术进步，石墨烯因其增强的物理、机械和热性能而受到科学界的广泛欢迎和关注。石墨烯及其在各领域应用的研究成果将会更多。本研究的重点是石墨烯的基本方面，这是探索柔性触摸屏，如智能手机，Ipad，智能电视。讨论了这些结果对新型石墨烯显示器的影响。在实验技术的帮助下，包括表面前处理、粘附促进剂、石墨烯层厚度和Comsol的理论建模，得到了结果。研究了玻璃的预清洗时间、石墨烯-乙醇悬浮液中石墨烯的重量、粘附促进剂(如PMMA)的使用等参数。研究发现，最佳参数是较长的清洗时间(15分钟)、较低的石墨烯重量(<0.032 g)和使用PMMA。在建模中，分析了石墨烯在玻璃基板上的逐层嵌入。研究了其光学透明度、附着力和电阻率等特性。石墨烯在玻璃上的建模结果表明，层厚度需要优化，层厚度较低(<2 * 10−5 cm)更好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Energy and Environment Focus

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