具有高灵敏度的SnO₂纳米线气体传感器的新型制造方法。

Novel fabrication of an SnO(2) nanowire gas sensor with high sensitivity.

作者信息

Choi Young-Jin, Hwang In-Sung, Park Jae-Gwan, Choi Kyoung Jin, Park Jae-Hwan, Lee Jong-Heun

机构信息

Nano-materials Research Center, Korea Institute of Science and Technology, Seoul 130-650, Korea.

出版信息

Nanotechnology. 2008 Mar 5;19(9):095508. doi: 10.1088/0957-4484/19/9/095508. Epub 2008 Feb 11.

DOI:10.1088/0957-4484/19/9/095508

PMID:21817675

Abstract

We fabricated a nanowire-based gas sensor using a simple method of growing SnO(2) nanowires bridging the gap between two pre-patterned Au catalysts, in which the electrical contacts to the nanowires are self-assembled during the synthesis of the nanowires. The gas sensing capability of this network-structured gas sensor was demonstrated using a diluted NO(2). The sensitivity, as a function of temperature, was highest at 200 °C and was determined to be 18 and 180 when the NO(2) concentration was 0.5 and 5 ppm, respectively. Our sensor showed higher sensitivity compared to different types of sensors including SnO(2) powder-based thin films, SnO(2) coating on carbon nanotubes or single/multiple SnO(2) nanobelts. The enhanced sensitivity was attributed to the additional modulation of the sensor resistance due to the potential barrier at nanowire/nanowire junctions as well as the surface depletion region of each nanowire.

摘要

我们采用一种简单的方法制备了基于纳米线的气体传感器，该方法是生长跨越两个预图案化金催化剂之间间隙的SnO₂纳米线，其中在纳米线合成过程中，与纳米线的电接触是自组装的。使用稀释的NO₂证明了这种网络结构气体传感器的气敏能力。作为温度函数的灵敏度在200 °C时最高，当NO₂浓度分别为0.5和5 ppm时，灵敏度分别为18和180。与包括基于SnO₂粉末的薄膜、碳纳米管上的SnO₂涂层或单根/多根SnO₂纳米带在内的不同类型传感器相比，我们的传感器显示出更高的灵敏度。灵敏度的提高归因于纳米线/纳米线结处的势垒以及每根纳米线的表面耗尽区对传感器电阻的额外调制。

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具有高灵敏度的SnO₂纳米线气体传感器的新型制造方法。

Novel fabrication of an SnO(2) nanowire gas sensor with high sensitivity.

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