Gas sensing properties of carbon nanomaterials

Gas sensing properties of carbon nanomaterials

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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.

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.

Gas sensor, ammonia, carbon nanotubes, graphite oxide.

Gas sensor, ammonia, carbon nanotubes, graphite oxide.

BANNOV, A.; PRÁŠEK, J.; JAŠEK, O.; SHIBAEV, A.; ZAJÍČKOVÁ, L.

2017

07.09.2016

IEEE Computer Society

New York

978-1-5090-1389-0

Proceedings of the International Spring Seminar on Electronics Technology

2161-2536

Conference proceedings (International Spring Seminar on Electronics Technology)

2016

Spojené státy americké

449

451

3