Carbon-derived micro- and nanostructures for chemical sensing

W. Kang, J. Davidson, Y. Wong, K. L. Soh, Y. Gurbuz
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引用次数: 4

Abstract

Carbon-derived micro- and nanostructures for chemical sensing in air and liquid environments have been developed. Gas sensing rectifiers comprised of micro-electrodes on diamond layers for detection of H/sub 2/, O/sub 2/, CO, and hydrocarbon gases have shown high sensitivity and fast response time over a very wide temperature range (>600/spl deg/C). Detection mechanisms of these microsensors have also been studied. A novel microelectronic gas sensor utilizing carbon nanotubes for hydrogen detection has also been developed. The sensor exhibits diode behavior at room temperature with drastic current changes in the presence of hydrogen. Also, diamond microelectrode arrays for electrochemical sensing in liquid media have been achieved and exhibited higher sensitivity than the conventional planar diamond film and other microprobes. Carbon-derived structures have broad practical applications for chemical sensing and have been demonstrated to operate at temperature, dynamic range, sensitivity, and radiation with far better performance than those based on silicon and other materials.
用于化学传感的碳衍生微纳米结构
在空气和液体环境中用于化学传感的碳源微纳米结构已经被开发出来。气敏整流器由金刚石层上的微电极组成,用于检测H/sub /、O/sub /、CO和碳氢化合物气体,在非常宽的温度范围内(>600/spl℃)显示出高灵敏度和快速响应时间。对这些微传感器的检测机制也进行了研究。一种新型的利用碳纳米管进行氢探测的微电子气体传感器也被开发出来。该传感器在室温下表现出二极管的行为,在氢存在的情况下具有剧烈的电流变化。此外,已经实现了用于液体介质电化学传感的金刚石微电极阵列,并且比传统的平面金刚石膜和其他微探针具有更高的灵敏度。碳衍生结构在化学传感方面具有广泛的实际应用,并且已被证明在温度、动态范围、灵敏度和辐射下工作,其性能远远优于基于硅和其他材料的结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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