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BANNOV, A. JAŠEK, O. PRÁŠEK, J. BURŠÍK, J. ZAJÍČKOVÁ, L.
Original Title
Enhanced Ammonia Adsorption on Directly Deposited Nanofibrous Carbon Films
Type
journal article in Web of Science
Language
English
Original Abstract
The ammonia adsorption on the nanostructured carbon thin film was significantly influenced by the choice of deposition temperature and deposition time of thin film synthesis. The thin films were prepared on Si/SiO2 substrates by chemical vapour deposition in Ar/C2H2 gas mixture using iron catalytic nanoparticles. The analysis of the grown layer by the scanning and transmission electron microscopy showed the transition from long multiwalled nanotubes (MWCNTs) to bamboo-like hollow carbon nanofiber structure with the decrease of the deposition temperature from 700 to 600°C. Further, the material was analyzed by energy-dispersive X-ray spectroscopy and Raman spectroscopy confirmed the transition from graphitic sp ² structure to highly defective structure at lower deposition temperature. The resistance of the prepared layer strongly depends on deposition temperature ( Td ) and deposition time ( td ). High resistance layer, 38.6 kΩ, was formed at Td 600°C and td 10 min, while at Td 700°C and td 60 min, the resistance decreased to 860 ohms. Such behaviour is consistent with MWCNTs being responsible for the formation of the conductive network. Such system was studied using chemiresistor ammonia gas sensor configuration. The sensor resistance increased when exposed to ammonia in all the cases, but their response varied considerably. A decrease in deposition time, from 60 to 10 min, and the deposition temperature, from 700 to 600°C, led to the 10-fold increase in the sensor response. The measurements carried out at room temperature showed the higher sensor response than the measurements carried out at 200°C. This behaviour can be explained by the change in adsorption-desorption equilibrium at different temperatures. Analysis of dependence of the sensor response on the ammonia concentration proved that the underlying resistance change mechanism is chemisorption of ammonia molecules on the carbon network corresponding to the Langmuir isotherm.
Keywords
ammonia; nanofibrous carbon; MWCNTs; gas sensor
Authors
BANNOV, A.; JAŠEK, O.; PRÁŠEK, J.; BURŠÍK, J.; ZAJÍČKOVÁ, L.
Released
17. 9. 2018
Publisher
Hindawi
ISBN
1687-7268
Periodical
Journal of Sensors
Year of study
2018
Number
7497619
State
United States of America
Pages from
1
Pages to
14
Pages count
URL
http://dx.doi.org/10.1155/2018/7497619
Full text in the Digital Library
http://hdl.handle.net/11012/193261
BibTex
@article{BUT150641, author="Alexander G. {Bannov} and Ondřej {Jašek} and Jan {Prášek} and Jiří {Buršík} and Lenka {Zajíčková}", title="Enhanced Ammonia Adsorption on Directly Deposited Nanofibrous Carbon Films", journal="Journal of Sensors", year="2018", volume="2018", number="7497619", pages="1--14", doi="10.1155/2018/7497619", issn="1687-7268", url="http://dx.doi.org/10.1155/2018/7497619" }