可穿戴柔性卡普顿石墨烯电磁传感器

IF 0.9 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
M. Bouherour, A. Nabila, L. Z. Meryem, T. Nourelhouda, R. Sawsen
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引用次数: 0

摘要

这项研究致力于开发一种快速诊断病毒的新技术,利用矩形贴片谐振器(RPR)或可穿戴柔性传感器(WFS)的电磁技术进行无创病毒性疾病检测,包括纳米病毒和宏病毒。这些设备专为精确、无创地检测各种病毒而设计。为了提高诊断精度,我们对电磁传感器进行了细致的探索和模拟,使其能够检测和识别最微小的病毒。我们采用数值建模,重点关注 10 GHz 至 20 GHz 频率范围。我们对这种传感器在非侵入式病毒检测方面的潜力持强烈的乐观态度。在整个研究过程中进行的大量模拟强调了 WFS 对所有病毒的选择性,其探测极限和灵敏度都非常高。此外,WFS 还能区分不同的感染率,每种感染率都对应着不同的反射模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wearable flexible Kapton-graphene electromagnetic sensors
This research is dedicated to the development of a new technology for a quick diagnosis of virial virus, using electromagnetic technology facilitated by either a Rectangular Patch Resonator (RPR) or a Wearable Flexible Sensor (WFS) designed for non-invasive viral disease detection, including Nano-virus, and macro-virus. These devices is tailored for a precise and non-invasive detection of a wide array of viruses. To enhance diagnostic precision, an electromagnetic sensor was meticulously explored and simulated, to be capable of detecting and identifying even the most minuscule viruses. Employing numerical modeling with a focus on the 10 GHz to 20 GHz frequency range. We hold a strong sense of optimism regarding this sensor's potential for non-invasive virus detection. Extensive simulations conducted throughout this study have underscored the WFS's selectivity across all viruses, boasting an exceptional limit of detection and sensitivity. Moreover, the WFS exhibited the capability to distinguish between varying infection percentages, each corresponding to a distinct reflection pattern.
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来源期刊
Journal of Optoelectronic and Biomedical Materials
Journal of Optoelectronic and Biomedical Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
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