Ultrahigh-sensitive mixed-potential ammonia sensor using dual-functional NiWO 4 electrocatalyst for exhaust environment monitoring

The exhaust monitoring for in-situ quantification of gas pollutants has always been a challenge due to the harsh thermo-chemical environments, for which the solid-electrolyte based gas sensors appear as a realistic solution. In this work, an ultrahigh-sensitive mixed-potential ammonia sensor was dev...

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Bibliographic Details
Published in:Journal of hazardous materials 2021-02, Vol.403, p.123797
Main Authors: Bhardwaj, Aman, Kim, In-Ho, Mathur, Lakshya, Park, Jun-Young, Song, Sun-Ju
Format: Article
Language:English
Online Access:Get full text
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Summary:The exhaust monitoring for in-situ quantification of gas pollutants has always been a challenge due to the harsh thermo-chemical environments, for which the solid-electrolyte based gas sensors appear as a realistic solution. In this work, an ultrahigh-sensitive mixed-potential ammonia sensor was developed using a new dual-functional NiWO electrocatalyst, synthesized through a low-temperature molten-salt synthesis route. The electrode morphology and diffusion lengths were tuned for optimum performance. The sensor operated at 550 ℃ displayed response of -100 mV to 80 ppm NH , with response/recovery times of 28/68 s and a record-high sensitivity of 90 mV/decade. Besides, it displayed excellent selectivity and trace-level NH detection ability upto 400 ppb. While examining the sensing mechanism, the sensor exhibited an NH concentration-dependent transformation of rate-determining kinetics from charge-transfer limited Butler-Volmer type to diffusional mass-transport limited reaction kinetics. Moreover, the remarkable long-term stability with negligible response degradation (< 4%) confirms the suitability of the sensor for exhaust environment monitoring.
ISSN:1873-3336