Roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made SnO<inf>2</inf>nanoparticles−electrolytically exfoliated graphene interfaces
© 2017 Elsevier B.V. In this work, the roles of cobalt (Co) and electrolytically exfoliated graphene additives on ethanol gas-sensing properties of flame-spray-made SnO 2 nanoparticles were systematically studied. Structural characterizations indicated that Co dopants formed solid solution with SnO...
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th-cmuir.6653943832-469652018-04-25T07:34:26Z Roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made SnO<inf>2</inf>nanoparticles−electrolytically exfoliated graphene interfaces Matawee Punginsang Anurat Wisitsoraat Chakrit Sriprachuabwong Ditsayut Phokharatkul Adisorn Tuantranont Sukon Phanichphant Chaikarn Liewhiran Agricultural and Biological Sciences Arts and Humanities © 2017 Elsevier B.V. In this work, the roles of cobalt (Co) and electrolytically exfoliated graphene additives on ethanol gas-sensing properties of flame-spray-made SnO 2 nanoparticles were systematically studied. Structural characterizations indicated that Co dopants formed solid solution with SnO 2 nanoparticles while multilayer graphene sheets were well dispersed within the Co-doped SnO 2 matrix at low graphene loading contents. The sensing films were fabricated by a spin coating process and tested towards 50–1000 ppm ethanol at 150–400 °C. It was found that the response to 1000 ppm ethanol at the optimal working temperature of 350 °C was enhanced from 91 to 292 and to 803 by 0.5 wt% graphene loading and 0.5 wt% Co-doping, respectively. The combination of Co-doping and graphene loading with the same concentration of 0.5 wt% led to a synergistic enhancement of ethanol response to 2147 at 1000 ppm with a short response time of ∼0.9 s and fast recovery stabilization at 350 °C, proving the significance of dopant on the gas-sensing performances of graphene/SnO 2 composites. Furthermore, the optimal sensor exhibited high ethanol selectivity against C 3 H 6 O, NO 2 , H 2 S, H 2, CH 4 and humidity. The mechanisms for the ethanol response enhancement were proposed on the basis of combinative effects of catalytic substitutional p-type Co dopants and active graphene−Co-doped SnO 2 M-S junctions with highly accessible surface area of micropores and mesopores in the composites. Therefore, the graphene loaded Co-doped SnO 2 sensor is highly potential for responsive and selective detection of ethanol vapor at ppm levels and may be practically useful for drunken driving applications. 2018-04-25T07:06:12Z 2018-04-25T07:06:12Z 2017-12-15 Journal 01694332 2-s2.0-85023641157 10.1016/j.apsusc.2017.06.265 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85023641157&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/46965 |
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Agricultural and Biological Sciences Arts and Humanities Matawee Punginsang Anurat Wisitsoraat Chakrit Sriprachuabwong Ditsayut Phokharatkul Adisorn Tuantranont Sukon Phanichphant Chaikarn Liewhiran Roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made SnO<inf>2</inf>nanoparticles−electrolytically exfoliated graphene interfaces |
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© 2017 Elsevier B.V. In this work, the roles of cobalt (Co) and electrolytically exfoliated graphene additives on ethanol gas-sensing properties of flame-spray-made SnO 2 nanoparticles were systematically studied. Structural characterizations indicated that Co dopants formed solid solution with SnO 2 nanoparticles while multilayer graphene sheets were well dispersed within the Co-doped SnO 2 matrix at low graphene loading contents. The sensing films were fabricated by a spin coating process and tested towards 50–1000 ppm ethanol at 150–400 °C. It was found that the response to 1000 ppm ethanol at the optimal working temperature of 350 °C was enhanced from 91 to 292 and to 803 by 0.5 wt% graphene loading and 0.5 wt% Co-doping, respectively. The combination of Co-doping and graphene loading with the same concentration of 0.5 wt% led to a synergistic enhancement of ethanol response to 2147 at 1000 ppm with a short response time of ∼0.9 s and fast recovery stabilization at 350 °C, proving the significance of dopant on the gas-sensing performances of graphene/SnO 2 composites. Furthermore, the optimal sensor exhibited high ethanol selectivity against C 3 H 6 O, NO 2 , H 2 S, H 2, CH 4 and humidity. The mechanisms for the ethanol response enhancement were proposed on the basis of combinative effects of catalytic substitutional p-type Co dopants and active graphene−Co-doped SnO 2 M-S junctions with highly accessible surface area of micropores and mesopores in the composites. Therefore, the graphene loaded Co-doped SnO 2 sensor is highly potential for responsive and selective detection of ethanol vapor at ppm levels and may be practically useful for drunken driving applications. |
| format |
Journal |
| author |
Matawee Punginsang Anurat Wisitsoraat Chakrit Sriprachuabwong Ditsayut Phokharatkul Adisorn Tuantranont Sukon Phanichphant Chaikarn Liewhiran |
| author_facet |
Matawee Punginsang Anurat Wisitsoraat Chakrit Sriprachuabwong Ditsayut Phokharatkul Adisorn Tuantranont Sukon Phanichphant Chaikarn Liewhiran |
| author_sort |
Matawee Punginsang |
| title |
Roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made SnO<inf>2</inf>nanoparticles−electrolytically exfoliated graphene interfaces |
| title_short |
Roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made SnO<inf>2</inf>nanoparticles−electrolytically exfoliated graphene interfaces |
| title_full |
Roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made SnO<inf>2</inf>nanoparticles−electrolytically exfoliated graphene interfaces |
| title_fullStr |
Roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made SnO<inf>2</inf>nanoparticles−electrolytically exfoliated graphene interfaces |
| title_full_unstemmed |
Roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made SnO<inf>2</inf>nanoparticles−electrolytically exfoliated graphene interfaces |
| title_sort |
roles of cobalt doping on ethanol-sensing mechanisms of flame-spray-made sno<inf>2</inf>nanoparticles−electrolytically exfoliated graphene interfaces |
| publishDate |
2018 |
| url |
https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85023641157&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/46965 |
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1681422972695347200 |