Radiofrequency sensing systems based on emerging two-dimensional materials and devices

IF 16.1 1区 工程技术 Q1 ENGINEERING, MANUFACTURING International Journal of Extreme Manufacturing Pub Date : 2023-05-24 DOI:10.1088/2631-7990/acd88d
Honglei Xue, Wanshuo Gao, Jianwei Gao, G. Schneider, Chen Wang, Wangyang Fu
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Abstract

As one of the most promising platforms for wireless communication, radiofrequency (RF) electronics have been widely advocated for the development of sensing systems. In particular, monolayer and few-layer two-dimensional (2D) materials exhibiting extraordinary electrical properties not only can be integrated to improve the performance of RF circuits, but also to display exceptional sensing capabilities. This review provides an in-depth perspective of current trends and challenges in the application of 2D materials for RF biochemical sensing, including: (i) theoretical bases to achieve different sensing schemes; (ii) unique properties of 2D materials for reasoning their applications in RF sensing; (iii) developments in 2D RF sensors to facilitate the practice of biochemical sensors with ever-demanding sensitivities, as well as their potential uses in meeting the requirements and challenges of biochemical sensors in the Internet-of-Things era.
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基于新兴二维材料和器件的射频传感系统
射频(RF)电子学作为最有前途的无线通信平台之一,已被广泛提倡用于传感系统的发展。特别是,具有非凡电性能的单层和几层二维(2D)材料不仅可以集成以提高射频电路的性能,而且还可以显示出卓越的传感能力。本文综述了目前二维材料在射频生化传感中的应用趋势和挑战,包括:(1)实现不同传感方案的理论基础;(ii)二维材料的独特性质,以推理其在射频传感中的应用;(iii)二维射频传感器的发展,以促进对灵敏度要求越来越高的生化传感器的实践,以及它们在满足物联网时代生化传感器的要求和挑战方面的潜在用途。
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来源期刊
International Journal of Extreme Manufacturing
International Journal of Extreme Manufacturing Engineering-Industrial and Manufacturing Engineering
CiteScore
17.70
自引率
6.10%
发文量
83
审稿时长
12 weeks
期刊介绍: The International Journal of Extreme Manufacturing (IJEM) focuses on publishing original articles and reviews related to the science and technology of manufacturing functional devices and systems with extreme dimensions and/or extreme functionalities. The journal covers a wide range of topics, from fundamental science to cutting-edge technologies that push the boundaries of currently known theories, methods, scales, environments, and performance. Extreme manufacturing encompasses various aspects such as manufacturing with extremely high energy density, ultrahigh precision, extremely small spatial and temporal scales, extremely intensive fields, and giant systems with extreme complexity and several factors. It encompasses multiple disciplines, including machinery, materials, optics, physics, chemistry, mechanics, and mathematics. The journal is interested in theories, processes, metrology, characterization, equipment, conditions, and system integration in extreme manufacturing. Additionally, it covers materials, structures, and devices with extreme functionalities.
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