H2S sensing characteristics of Ni-doped CaCu3Ti4O12 films synthesized by a sol-gel method

The problem of detecting the toxic hydrogen sulfide (H2S) gas at part per million levels in air by means of simple solid state gas sensors is relevant to environmental and gas processing industries. In this work, high-performance H2S gas sensors are developed based on nickel-doped calcium copper tit...

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Autores principales: Boontum, A., Phokharatkul, D., Hodak, J.H., Wisitsoraat, A., Hodak, S.K.
Formato: JOUR
Materias:
Calcium copper titanate
Hydrogen sulfide
Ni doping
Semiconducting gas sensor
Sol-gel method
Calcium
Calcium compounds
Chemical sensors
Copper
Gas detectors
Gases
Nickel
Nickel compounds
Semiconductor doping
Sol-gel process
Sol-gels
Solid-state sensors
Sulfur compounds
Sulfur determination
Surface reactions
Thin films
Titanium compounds
Calcium copper titanates
Catalytic effects
Ni-doping
Operating temperature
Reproducibilities
Selective detection
Sensing characteristics
Solid state gas sensors
Copper compounds
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_09254005_v260_n_p877_Boontum
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_09254005_v260_n_p877_Boontum2023-10-03T15:46:16Z H2S sensing characteristics of Ni-doped CaCu3Ti4O12 films synthesized by a sol-gel method Boontum, A. Phokharatkul, D. Hodak, J.H. Wisitsoraat, A. Hodak, S.K. Calcium copper titanate Hydrogen sulfide Ni doping Semiconducting gas sensor Sol-gel method Calcium Calcium compounds Chemical sensors Copper Gas detectors Gases Hydrogen sulfide Nickel Nickel compounds Semiconductor doping Sol-gel process Sol-gels Solid-state sensors Sulfur compounds Sulfur determination Surface reactions Thin films Titanium compounds Calcium copper titanates Catalytic effects Ni-doping Operating temperature Reproducibilities Selective detection Sensing characteristics Solid state gas sensors Copper compounds The problem of detecting the toxic hydrogen sulfide (H2S) gas at part per million levels in air by means of simple solid state gas sensors is relevant to environmental and gas processing industries. In this work, high-performance H2S gas sensors are developed based on nickel-doped calcium copper titanate (Ni-doped CCTO) thin films synthesized by a sol-gel method. From gas-sensing measurements, the response of Ni-doped CCTO sensing films increased substantially with increasing Ni doping level from 1.5 to 7.3 wt%, revealing a catalytic effect of Ni on the surface reactions with adsorbed H2S molecules. In particular, 7.3 wt% Ni-doped CCTO sensors offered a high response of 120 for 10 ppm of H2S at the optimal operating temperature of 250 °C, an order of magnitude higher than that of undoped one. In addition, the response time dropped significantly from ∼80 s to ∼4 s while the recovery time slightly improved as the Ni doping content increased from 0 to 7.3 wt%. Moreover, the Ni-doped CCTO sensors exhibited good reproducibility and high H2S selectivity against ethanol, H2, NO2 and NH3. Therefore, the Ni-doped CCTO sensors are highly promising for sensitive and selective detections of H2S. © 2018 JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_09254005_v260_n_p877_Boontum
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Calcium copper titanate
Hydrogen sulfide
Ni doping
Semiconducting gas sensor
Sol-gel method
Calcium
Calcium compounds
Chemical sensors
Copper
Gas detectors
Gases
Hydrogen sulfide
Nickel
Nickel compounds
Semiconductor doping
Sol-gel process
Sol-gels
Solid-state sensors
Sulfur compounds
Sulfur determination
Surface reactions
Thin films
Titanium compounds
Calcium copper titanates
Catalytic effects
Ni-doping
Operating temperature
Reproducibilities
Selective detection
Sensing characteristics
Solid state gas sensors
Copper compounds
spellingShingle Calcium copper titanate
Hydrogen sulfide
Ni doping
Semiconducting gas sensor
Sol-gel method
Calcium
Calcium compounds
Chemical sensors
Copper
Gas detectors
Gases
Hydrogen sulfide
Nickel
Nickel compounds
Semiconductor doping
Sol-gel process
Sol-gels
Solid-state sensors
Sulfur compounds
Sulfur determination
Surface reactions
Thin films
Titanium compounds
Calcium copper titanates
Catalytic effects
Ni-doping
Operating temperature
Reproducibilities
Selective detection
Sensing characteristics
Solid state gas sensors
Copper compounds
Boontum, A.
Phokharatkul, D.
Hodak, J.H.
Wisitsoraat, A.
Hodak, S.K.
H2S sensing characteristics of Ni-doped CaCu3Ti4O12 films synthesized by a sol-gel method
topic_facet Calcium copper titanate
Hydrogen sulfide
Ni doping
Semiconducting gas sensor
Sol-gel method
Calcium
Calcium compounds
Chemical sensors
Copper
Gas detectors
Gases
Hydrogen sulfide
Nickel
Nickel compounds
Semiconductor doping
Sol-gel process
Sol-gels
Solid-state sensors
Sulfur compounds
Sulfur determination
Surface reactions
Thin films
Titanium compounds
Calcium copper titanates
Catalytic effects
Ni-doping
Operating temperature
Reproducibilities
Selective detection
Sensing characteristics
Solid state gas sensors
Copper compounds
description The problem of detecting the toxic hydrogen sulfide (H2S) gas at part per million levels in air by means of simple solid state gas sensors is relevant to environmental and gas processing industries. In this work, high-performance H2S gas sensors are developed based on nickel-doped calcium copper titanate (Ni-doped CCTO) thin films synthesized by a sol-gel method. From gas-sensing measurements, the response of Ni-doped CCTO sensing films increased substantially with increasing Ni doping level from 1.5 to 7.3 wt%, revealing a catalytic effect of Ni on the surface reactions with adsorbed H2S molecules. In particular, 7.3 wt% Ni-doped CCTO sensors offered a high response of 120 for 10 ppm of H2S at the optimal operating temperature of 250 °C, an order of magnitude higher than that of undoped one. In addition, the response time dropped significantly from ∼80 s to ∼4 s while the recovery time slightly improved as the Ni doping content increased from 0 to 7.3 wt%. Moreover, the Ni-doped CCTO sensors exhibited good reproducibility and high H2S selectivity against ethanol, H2, NO2 and NH3. Therefore, the Ni-doped CCTO sensors are highly promising for sensitive and selective detections of H2S. © 2018
format JOUR
author Boontum, A.
Phokharatkul, D.
Hodak, J.H.
Wisitsoraat, A.
Hodak, S.K.
author_facet Boontum, A.
Phokharatkul, D.
Hodak, J.H.
Wisitsoraat, A.
Hodak, S.K.
author_sort Boontum, A.
title H2S sensing characteristics of Ni-doped CaCu3Ti4O12 films synthesized by a sol-gel method
title_short H2S sensing characteristics of Ni-doped CaCu3Ti4O12 films synthesized by a sol-gel method
title_full H2S sensing characteristics of Ni-doped CaCu3Ti4O12 films synthesized by a sol-gel method
title_fullStr H2S sensing characteristics of Ni-doped CaCu3Ti4O12 films synthesized by a sol-gel method
title_full_unstemmed H2S sensing characteristics of Ni-doped CaCu3Ti4O12 films synthesized by a sol-gel method
title_sort h2s sensing characteristics of ni-doped cacu3ti4o12 films synthesized by a sol-gel method
url http://hdl.handle.net/20.500.12110/paper_09254005_v260_n_p877_Boontum
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AT wisitsoraata h2ssensingcharacteristicsofnidopedcacu3ti4o12filmssynthesizedbyasolgelmethod
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