A Cost-Effective and Easy-to-Fabricate Conductive Velcro Dry Electrode for Durable and High-Performance Biopotential Acquisition

Biosensors Pub Date : 2024-09-06 DOI:10.3390/bios14090432

Jun Guo, Xuanqi Wang, Ruiyu Bai, Zimo Zhang, Huazhen Chen, Kai Xue, Chuang Ma, Dawei Zang, Erwei Yin, Kunpeng Gao, Bowen Ji

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Abstract

Compared with the traditional gel electrode, the dry electrode is being taken more seriously in bioelectrical recording because of its easy preparation, long-lasting ability, and reusability. However, the commonly used dry AgCl electrodes and silver cloth electrodes are generally hard to record through hair due to their flat contact surface. Claw electrodes can contact skin through hair on the head and body, but the internal claw structure is relatively hard and causes discomfort after being worn for a few hours. Here, we report a conductive Velcro electrode (CVE) with an elastic hook hair structure, which can collect biopotential through body hair. The elastic hooks greatly reduce discomfort after long-time wearing and can even be worn all day. The CVE electrode is fabricated by one-step immersion in conductive silver paste based on the cost-effective commercial Velcro, forming a uniform and durable conductive coating on a cluster of hook microstructures. The electrode shows excellent properties, including low impedance (15.88 kΩ @ 10 Hz), high signal-to-noise ratio (16.0 dB), strong water resistance, and mechanical resistance. After washing in laundry detergent, the impedance of CVE is still 16% lower than the commercial AgCl electrodes. To verify the mechanical strength and recovery capability, we conducted cyclic compression experiments. The results show that the displacement change of the electrode hook hair after 50 compression cycles was still less than 1%. This electrode provides a universal acquisition scheme, including effective acquisition of different parts of the body with or without hair. Finally, the gesture recognition from electromyography (EMG) by the CVE electrode was applied with accuracy above 90%. The CVE proposed in this study has great potential and promise in various human–machine interface (HMI) applications that employ surface biopotential signals on the body or head with hair.

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一种经济高效、易于制造的导电尼龙搭扣干电极，可用于持久、高性能的生物电位采集

与传统的凝胶电极相比，干电极因其制备简便、使用寿命长、可重复使用等优点，在生物电记录中越来越受到重视。然而，常用的干式氯化银电极和银布电极由于接触面较平，一般很难通过头发进行记录。爪形电极可以通过头部和身体的头发接触皮肤，但内部爪形结构相对较硬，佩戴数小时后会引起不适。在此，我们报告了一种具有弹性钩毛结构的导电尼龙搭扣电极（CVE），它可以通过体毛收集生物电位。弹性挂钩大大减少了长时间佩戴后的不适感，甚至可以全天佩戴。CVE 电极是在成本低廉的商用尼龙搭扣的基础上，通过一步浸泡在导电银浆中制成的，在一簇钩状微结构上形成了均匀持久的导电涂层。该电极具有优异的性能，包括低阻抗（15.88 kΩ @ 10 Hz）、高信噪比（16.0 dB）、强耐水性和耐机械性。经洗衣粉洗涤后，CVE 的阻抗仍比商用氯化银电极低 16%。为了验证其机械强度和恢复能力，我们进行了循环压缩实验。结果表明，经过 50 次压缩后，电极钩毛的位移变化仍小于 1%。这种电极提供了一种通用的采集方案，包括有效采集有毛发或无毛发的身体不同部位。最后，利用 CVE 电极对肌电图（EMG）进行手势识别的准确率超过 90%。本研究中提出的 CVE 极具潜力，有望在各种人机界面（HMI）应用中得到广泛应用，这些应用采用了有头发的身体或头部表面生物电位信号。

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Biosensors

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