The role of surface roughness on the electrical behavior of flexible and stretchable screen-printed silver ink on Kapton substrate

IF 2.8 4区 工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Flexible and Printed Electronics Pub Date : 2023-12-21 DOI:10.1088/2058-8585/ad0ea5
Mohamed Y Abdelatty, Ashraf Umar, Gurvinder S Khinda, Ryan J Cadwell, Joshua A Levy, Nancy Huang, Darshana L Weerawarne, Mohammed Alhendi, Scott M Miller, Mark D Poliks
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Abstract

Changes in the morphology and profile of the printed electronic traces affect the radio frequency (RF) performance, especially when compared to the simulated designs, which are primarily rectangular and smooth. The shape and morphology of the printed traces depend on the printing system, a combination of ink and substrate properties, and the printed technology used for fabrication. This paper investigates the significance of printing parameters like roughness, height, width, and profile shape on the RF performance of screen-printed traces statistically. This paper also derives a model based on actual profile shape and roughness measurements from incorporating these effects into the simulations. From the statistical study, we found that the role of surface roughness becomes more significant as the frequency increases. Thus, modeling surface roughness in flexible hybrid electronics simulations is fundamental for accurate results. Different simulated profile shapes also showed their effect on the RF performance, when combined with roughness, showed better correlation with experimental data. Our proposed model combines the modified Morgan and Hammerstad equation with the compound conductor model. Our proposed model uniquely integrates the modified Morgan and Hammerstad equation with the compound conductor model, leveraging a comprehensive approach focused on the quality and uniformity of printed electronics trace. This integration is aimed at constructing a model that is firmly grounded in actual roughness data, resulting in a solution that is both straightforward to implement and exceptionally accurate in its outcomes. The model agreed well with experimental measurement data over 7 GHz–40 GHz with a root-mean-square error average of 5.7%.
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表面粗糙度对 Kapton 基材上柔性和可拉伸丝网印刷银墨电气行为的影响
印刷电子线路形态和轮廓的变化会影响射频(RF)性能,特别是与模拟设计相比,模拟设计主要是矩形和光滑的。印刷迹线的形状和形态取决于印刷系统、油墨和基材的综合特性以及用于制造的印刷技术。本文通过统计研究了粗糙度、高度、宽度和轮廓形状等印刷参数对丝网印刷痕迹射频性能的影响。本文还根据实际的轮廓形状和粗糙度测量结果,将这些影响纳入模拟,从而推导出一个模型。通过统计研究,我们发现表面粗糙度的作用随着频率的增加而变得更加显著。因此,在柔性混合电子模拟中建立表面粗糙度模型是获得准确结果的基础。不同的模拟轮廓形状也显示了它们对射频性能的影响,当与粗糙度相结合时,显示出与实验数据更好的相关性。我们提出的模型将修正的摩根和哈默斯塔德方程与复合导体模型相结合。我们提出的模型将修正的摩根和哈默斯塔德方程与复合导体模型进行了独特的整合,利用一种侧重于印刷电子线路质量和均匀性的综合方法。这种整合旨在构建一个以实际粗糙度数据为坚实基础的模型,从而产生一个既简单易行、结果又异常精确的解决方案。该模型与 7 GHz-40 GHz 的实验测量数据非常吻合,平均均方根误差为 5.7%。
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来源期刊
Flexible and Printed Electronics
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.
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