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JOURNAL ARTICLE

Room Temperature Ammonia (NH3) Gas Sensor based on Molybdenum Disulfide and Reduced Graphene Oxide (MoS2/rGO) Heterojunction.

Ravinder SinghSunil AgrohiyaSajjan DahiyaIshpal RawalAnil OhlanR. PuniaA.S. Maan

Year: 2023 Journal:   Journal of Physics Conference Series Vol: 2663 (1)Pages: 012022-012022   Publisher: IOP Publishing
DOI: 10.1088/1742-6596/2663/1/012022
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Abstract

Abstract Nanocomposites based on 2D materials exhibit synergistic behavior at their interfaces, making them a promising candidate for gas sensing applications. The MoS 2 /rGO nanocomposite used in this study was synthesized using a one-step hydrothermal process. By using X-ray diffraction (XRD), the synthesized composite was thoroughly characterized. The spin coater was used to deposit the nanomaterial thin film onto the glass substrate. The nanocomposite sensing was tested at a 40 ppm concentration of ammonia gas. An increase in ammonia concentration was found to correspond with a rise in the resistance of the sensor. The nanocomposite interface of this sensor enabled it to exhibit a synergistic behavior, resulting in several desirable characteristics, including low power consumption, fast response and recovery times, high selectivity, and a low operating temperature.

Keywords:
Nanocomposite Molybdenum disulfide Materials science Graphene Oxide Ammonia Substrate (aquarium) Hydrothermal circulation Chemical engineering Heterojunction Nanomaterials Spin coating Operating temperature Nanotechnology Thin film Composite material Optoelectronics Organic chemistry Chemistry Metallurgy

Metrics

5
Cited By
0.83
FWCI (Field Weighted Citation Impact)
8
Refs
0.71
Citation Normalized Percentile
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Citation History

Topics

Gas Sensing Nanomaterials and Sensors
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Transition Metal Oxide Nanomaterials
Physical Sciences →  Materials Science →  Polymers and Plastics
Conducting polymers and applications
Physical Sciences →  Materials Science →  Polymers and Plastics

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