Stretchable silver electrodes adopting double stress release design directly deposited on an eco-flex substrate

IF 2.8 4区工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Flexible and Printed Electronics Pub Date : 2023-04-06 DOI:10.1088/2058-8585/accaf6

Jonghyun Jeong, Gihak Kim, Jaewook Jeong

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引用次数: 1

Abstract

In this paper, stretchable electrodes adopting a double stress release structure were fabricated and characterized on eco-flex substrates. First, the correlation between mechanical properties applying surface plasma treatment and stretching capability of stretchable silver electrodes directly deposited on eco-flex substrate was studied. The Young’s modulus values of the substrate and metal were extracted using the force-distance relation via atomic force microscopy employing Johnson–Kendall–Roberts model. It was found that, as the Young’s modulus increased with the increase of plasma treatment time, the stretching capability first improved; then, samples showed no improvement over long plasma treatment time. This indicates that there is an optimum plasma treatment time to simultaneously achieve high stretching capability and low initial resistance. Using the optimum time, stretchable silver electrodes adopting double stress release structure along lateral and vertical directions were fabricated and the high stretching capability of the silver electrodes was achieved up to tensile strain of about 160%, as was high stability of up to 1000 times the multi-cycling strain.

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采用双应力释放设计的可拉伸银电极直接沉积在生态柔性衬底上

本文在eco-flex基底上制备了采用双重应力释放结构的可拉伸电极，并对其进行了表征。首先，研究了表面等离子体处理的力学性能与直接沉积在eco-flex基底上的可拉伸银电极拉伸性能之间的关系。通过采用Johnson–Kendall–Roberts模型的原子力显微镜，使用力-距离关系提取基底和金属的杨氏模量值。研究发现，随着等离子体处理时间的增加，杨氏模量增加，拉伸性能首先提高；然后，样品在长的等离子体处理时间内没有显示出改善。这表明存在同时实现高拉伸能力和低初始电阻的最佳等离子体处理时间。利用最佳时间，制备了沿横向和垂直方向采用双重应力释放结构的可拉伸银电极，银电极的高拉伸能力达到约160%的拉伸应变，以及高达1000倍多次循环应变的高稳定性。

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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来源期刊

Flexible and Printed Electronics MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

4.80

自引率

9.70%

发文量

101

期刊介绍： Flexible and Printed Electronics is a multidisciplinary journal publishing cutting edge research articles on electronics that can be either flexible, plastic, stretchable, conformable or printed. Research related to electronic materials, manufacturing techniques, components or systems which meets any one (or more) of the above criteria is suitable for publication in the journal. Subjects included in the journal range from flexible materials and printing techniques, design or modelling of electrical systems and components, advanced fabrication methods and bioelectronics, to the properties of devices and end user applications.