遥感系统用碳纳米管谐振器传感器

A. Pham
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引用次数: 12

摘要

本文介绍了我们正在进行的开发用于化学和潜在生物应用的碳纳米管谐振器传感器的研究。传感器换能器的工作原理是基于碳纳米管涂层的电磁谐振腔谐振频率的变化。我们已经开发了碳纳米管谐振器传感器原型,并发现该传感器对极性(nh3 /)和非极性气体(He, Ar, N/sub 2/和O/sub 2/)都很敏感。此外,我们最近证明了碳纳米管谐振器传感器对有机溶剂很敏感。这一发现表明,碳纳米管谐振器传感器可用于开发生物传感器。碳纳米管谐振器传感器平台具有整合到无线遥感系统中的潜力。
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Carbon nanotube resonator sensors for remote sensing systems
The paper presents our on-going research on the development of carbon nanotube resonator sensors for chemical and, potentially, biological applications. The sensor transducer mechanism is based on changes of resonant frequency of an electromagnetic resonator coated with carbon nanotubes. We have developed carbon nanotube resonator sensor prototypes and found that the sensor is sensitive to both polar (NH/sub 3/) and non-polar gases (He, Ar, N/sub 2/, and O/sub 2/). In addition, we have recently demonstrated that the carbon nanotube resonator sensor is sensitive to organic solvents. This finding suggests that the carbon nanotube resonator sensors can be used to develop biosensors. The carbon nanotube resonator sensor platform has the potential to be incorporated in a wireless remote sensing system.
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