Gas sensing properties of carbon nanomaterials

机译：碳纳米材料的气敏特性

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The sensing properties of carbon nanomaterials are studied and compared in this paper. Graphene oxide and multi-walled carbon nanotube films were used as active layers of chemoresistive gas sensors and characterized at room temperature towards ammonia detection in concentration levels from 100 ppm to 500 ppm in air. We conclude that graphene oxide based sensor has higher response (2.4% to 7.4% in range from 100 ppm to 500 ppm) than the multi-walled carbon nanotubes based one (1.0-2.4%). On the other hand, the carbon nanotubes based sensor possessed higher recovery rates in a wide range of used concentrations.

机译：本文对碳纳米材料的传感特性进行了研究和比较。氧化石墨烯和多壁碳纳米管薄膜被用作化学电阻式气体传感器的活性层，并在室温下以空气中浓度范围为100 ppm至500 ppm的氨气为特征。我们得出的结论是，基于氧化石墨烯的传感器比基于多壁碳纳米管的传感器（1.0-2.4％）具有更高的响应速度（在100 ppm至500 ppm范围内为2.4％至7.4％）。另一方面，基于碳纳米管的传感器在广泛的使用浓度范围内具有较高的回收率。

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《International Spring Seminar on Electronics Technology》|2016年|449-451|共3页
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Alexander G. Bannov; Jan Prášek; Ondřej Jašek; Alexander A. Shibaev; Lenka Zajíčková;
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Gas detectors; Carbon nanotubes; Carbon; Temperature sensors; Graphite; Nanomaterials;

机译：气体探测器;碳纳米管;碳;温度传感器;石墨;纳米材料;

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Gas sensing properties of carbon nanomaterials

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