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Highly conductive laser-induced graphene through the deposition of liquid metal particles for flexible electronics

材料科学 石墨烯 柔性电子器件 导电体 制作 光电子学 纳米技术 数码产品 微电子 电阻式触摸屏 复合材料 电气工程 医学 替代医学 工程类 病理
作者
Halil Tetik,Emmy Markgraf,Kohya Kato,Valerie N Chan,Mohammad H. Malakooti
出处
期刊:Flexible and printed electronics [IOP Publishing]
卷期号:8 (3): 035001-035001 被引量:9
标识
DOI:10.1088/2058-8585/ace26b
摘要

Abstract The rapid and simple fabrication process of laser-induced graphene (LIG) has enabled the creation of flexible sensors for emerging applications such as wearable electronics and intelligent systems. Although LIG can be designed to be a sensitive strain sensor due to the large change in its resistance under deformation, this property can also limit its use as a printed conductor on flexible substrates. Here, we present a versatile technique to enhance the electrical conductivity and resistive heating ability of LIG for use as flexible conductors in printed electronics. The highly conductive traces are prepared by direct writing of LIG onto a polyimide film using a CO 2 laser, upon which the functionalized liquid metal (LM)—eutectic gallium indium (EGaIn)—particles are deposited and activated. This results in a ∼400 times increase in electrical conductivity of LIG traces while maintaining mechanical flexibility and manufacturing scalability without the need for soldering. Electromechanical characterization of the LIG-LM traces shows low resistance change (less than 0.3 Ω) under large bending deformations. At the same time, the enhanced electrical conductivity contributes to the resistive heating performance as it reduces the input voltage requirement by ∼15 times to achieve similar surface temperatures compared to pure LIG traces. By combining EGaIn LM with laser-synthesized graphene, we can fabricate flexible hybrid electronics. We demonstrate the practicality of this technique by fabrication of flexible conductors and heating devices with highly customizable patterns.
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