Journal ArticleDOI
Detection of O3 and NH3 using hybrid tin dioxide/carbon nanotubes sensors: Influence of materials and processing on sensor's sensitivity
Boutheina Ghaddab,Jean-Baptiste Sanchez,Christophe Mavon,Matthieu Paillet,Romain Parret,Ahmed Azmi Zahab,Jean-Louis Bantignies,Valérie Flaud,Eric Bêche,Franck Berger +9 more
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In this article, a tin oxide (SnO2)/arc discharge single walled carbon nanotubes (SWNTs) hybrid material based sensor was developed for the detection of NH3 and O3 at room temperature.Abstract:
A tin oxide (SnO2)/arc-discharge single walled carbon nanotubes (SWNTs) hybrid material based sensor was developed for the detection of NH3 and O3 at room temperature. The gas sensitive composite thin films were prepared using sol gel and dip coating techniques, and characterized by transmission electron microscopy, atomic force microscopy and Raman spectroscopy. Overall, the hybrid material based sensor is found to have an enhanced sensitivity as compared to pure SnO2 or pure SWNTs based sensors. An optimum annealing temperature of the composite of 300 °C was determined. The detection limit at room temperature was evaluated at 1 ppm and lower than 20 ppb for NH3 and O3, respectively. Moreover, the hybrid sensor exhibited a fast response (few minutes), a good sensitivity and a full recovery at room temperature. The sensor efficiency has also been demonstrated to strongly depend on the SWNT source used for sensor fabrication (4 different commercial sources have been tested). These results open the way towards further optimized hybrid sensors.read more
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Nanostructured Materials for Room-Temperature Gas Sensors
TL;DR: The most important advances with regard to fundamental research, sensing mechanisms, and application of nanostructured materials for room-temperature conductometric sensor devices are reviewed here and particular emphasis is given to the relation between the nanostructure and sensor properties in an attempt to address structure-property correlations.
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Carbon Nanotube Chemical Sensors
TL;DR: This review is a comprehensive description of the parameters that give rise to the sensing capabilities of CNT-based sensors and the application of C NT-based devices in chemical sensing and their prospects for commercialization.
Journal ArticleDOI
Carbon Nanotube-Based Chemical Sensors
TL;DR: This article provides a review of the use of carbon nanotubes in gas and vapor sensing and offers advantages in sensitivity, preparation of chip-based sensors and construction of electronic nose for selective detection of analytes of interest.
Journal ArticleDOI
Validation of low-cost ozone measurement instruments suitable for use in an air-quality monitoring network
David E. Williams,Geoff S. Henshaw,M. Bart,Greer Laing,John A. Wagner,Simon C. Naisbitt,Jennifer Salmond +6 more
TL;DR: In this paper, a low-cost ozone sensor based on conductivity changes of heated tungstic oxide is presented, which is capable of accurately measuring ambient concentrations of ozone, using a combination of temperature steps and air flow-rate steps.
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Enhanced ammonia sensing at room temperature with reduced graphene oxide/tin oxide hybrid films
TL;DR: In this article, the excellent electrical properties of reduced graphene oxide (RGO) and sensing capabilities of SnO2 were combined to achieve enhanced ammonia sensitivity in the presence of 20% RH at room temperature.
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Sensors for sub-ppm NO2 gas detection based on carbon nanotube thin films
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