用于生物电位信号监测的激光诱导石墨烯涂层可穿戴智能织物电极

IF 2.5 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
C. M. Vidhya, Yogita Maithani, Sakshi Kapoor, J. P. Singh
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引用次数: 0

摘要

本文介绍了如何以合理的成本制作可穿戴干电极,以及如何将其用于心电图中的生物电位监测。可穿戴技术中的智能纺织品极大地促进了人类的健康管理和生活水平。石墨烯是用激光烧蚀聚酰亚胺(一种商用聚合物)这一低成本的单步工艺制造的。石墨烯分散液是用沸点低、无毒、环保的溶剂异丙醇制成的。在棉织物上连续涂覆石墨烯分散体使其导电后,所得织物的片状电阻降至初始值的 3%。由此制造出的激光诱导石墨烯(LIG)棉干电极在皮肤对电极阻抗方面与银/氯化银湿电极相当,在 40 Hz 至 1 kHz 频率范围内的测量值介于 78.0 和 7.2 kΩ 之间。LIG 棉电极的信噪比为 20.17 dB。由于其舒适性、简便性和较长时间的良好性能,这种纺织电极似乎非常适合医疗应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Laser-induced graphene-coated wearable smart textile electrodes for biopotentials signal monitoring

This paper describes how to produce a wearable dry electrode at a reasonable cost and how to use it for the monitoring of biopotentials in electrocardiography. Smart textiles in wearable technologies have made a great advancement in the health care management and living standards of humans. Graphene was manufactured using the low-cost single-step process, laser ablation of polyimide, a commercial polymer. Graphene dispersions were made using solvent isopropyl alcohol which has low boiling point, nontoxicity, and environmental friendliness. After successive coating of the graphene dispersion on the cotton fabric to make it conductive, the sheet resistance of the resulting fabric dropped to 3% of its initial value. The laser-induced graphene (LIG) cotton dry electrodes thus manufactured are comparable to Ag/AgCl wet electrodes in terms of the skin-to-electrode impedance, measuring between 78.0 and 7.2 kΩ for the frequency between 40 Hz and 1 kHz. The LIG cotton electrode displayed a signal-to-noise ratio of 20.17 dB. Due to its comfort, simplicity, and good performance over a longer period of time, the textile electrode appears suited for medical applications.

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来源期刊
Frontiers of Materials Science
Frontiers of Materials Science MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
4.20
自引率
3.70%
发文量
515
期刊介绍: Frontiers of Materials Science is a peer-reviewed international journal that publishes high quality reviews/mini-reviews, full-length research papers, and short Communications recording the latest pioneering studies on all aspects of materials science. It aims at providing a forum to promote communication and exchange between scientists in the worldwide materials science community. The subjects are seen from international and interdisciplinary perspectives covering areas including (but not limited to): Biomaterials including biomimetics and biomineralization; Nano materials; Polymers and composites; New metallic materials; Advanced ceramics; Materials modeling and computation; Frontier materials synthesis and characterization; Novel methods for materials manufacturing; Materials performance; Materials applications in energy, information and biotechnology.
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