Temperature Optimized Ammonia and Ethanol Sensing Using Ce Doped Tin Oxide Thin Films in a Novel Flow Metric Gas Sensing Chamber
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A simple process of gas sensing is represented here using Ce doped tin oxide nanomaterial based thin film sensor, which showed a good sensitivity towards ammonia and showed good selectivity towards ammonia when compared with ethanol.Abstract:
A simple process of gas sensing is represented here using Ce doped tin oxide nanomaterial based thin film sensor. A novel flow metric gas chamber has been designed and utilized for gas sensing. Doping plays a vital role in enhancing the sensing properties of nanomaterials. Ce doped tin oxide was prepared by hydrothermal method and the same has been used to fabricate a thin film for sensing. The microstructure and morphology of the prepared materials were analysed by SEM, XRD, and FTIR analysis. The SEM images clearly show that doping can clamp down the growth of the large crystallites and can lead to large agglomeration spheres. Thin film gas sensors were formed from undoped pure SnO2 and Ce doped SnO2. The sensors were exposed to ammonia and ethanol gases. The responses of the sensors to different concentrations (50–500 ppm) of ammonia and ethanol at different operating temperatures (225°C–500°C) were studied. Results show that a good sensitivity towards ammonia was obtained with Ce doped SnO2 thin film sensor at an optimal operating temperature of 325°C. The Ce doped sensor also showed good selectivity towards ammonia when compared with ethanol. Pure SnO2 showed good sensitivity with ethanol when compared with Ce doped SnO2 thin film sensor. Response time of the sensor and its stability were also studied.read more
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References
More filters
Journal ArticleDOI
Stable and highly sensitive gas sensors based on semiconducting oxide nanobelts
TL;DR: In this article, a single-crystalline SnO2 nanobelts were fabricated using the integrity of a single nanobelt with a sensitivity at the level of a few ppb.
Journal ArticleDOI
Ammonia sensors and their applications - a review
TL;DR: In this article, a survey of sensors and sensor systems for gaseous ammonia is presented, where the authors present different application areas for ammonia sensors or measurement systems and different techniques available for making selective ammonia sensing devices.
Journal ArticleDOI
Detection of NO2 down to ppb levels using individual and multiple In2O3 nanowire devices
TL;DR: In this paper, the authors demonstrate detection of NO2 down to ppb levels using transistors based on both single and multiple In2O3 nanowires operating at room temperature.
Journal ArticleDOI
Physisorption-Based Charge Transfer in Two-Dimensional SnS2 for Selective and Reversible NO2 Gas Sensing
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TL;DR: This work presents an important progress for selective and reversible NO2 sensing by demonstrating an economical sensing platform based on the charge transfer between physisorbed NO2 gas molecules and two-dimensional (2D) tin disulfide (SnS2) flakes at low operating temperatures.
Journal ArticleDOI
Nanosensors: towards morphological control of gas sensing activity. SnO2, In2O3, ZnO and WO3 case studies
TL;DR: The design and synthesis of well-defined nanocrystals which are uniform in size, shape and surface structure are ideal candidates for fundamental studies of mechanisms of gas sensing which should involve gas sensing measurements on specific surfaces, their atomistic/quantum chemical modelling and spectroscopic information obtained on same surfaces under operation conditions of sensors.