Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/electron-beam-evaporated-carbon-nanotube-dispersed-sno2-thin-film-gas-01TNsMjhsE
References (8)
-
K. Aguir, C. Lemire, D. Lollman (2002)
Electrical properties of reactively sputtered WO3 thin films as ozone gas sensorSensors and Actuators B-chemical, 84
-
M. Ivanovskaya, P. Bogdanov, G. Faglia, P. Nelli, G. Sberveglieri, A. Taroni (2001)
On the role of catalytic additives in gas-sensitivity of SnO2-Mo based thin film sensorsSensors and Actuators B-chemical, 77
-
T. Oyabu (1982)
Sensing characteristics of SnO2 thin film gas sensorJournal of Applied Physics, 53
-
M. Reddy, A. Chandorkar (1992)
Response study of electron-beam evaporated thin-film tin oxide gas sensorsSensors and Actuators B-chemical, 9
-
T. Hyodo, Norihiro Nishida, Y. Shimizu, M. Egashira (2002)
Preparation and gas-sensing properties of thermally stable mesoporous SnO2Sensors and Actuators B-chemical, 83
-
S. Shukla, S. Seal, L. Ludwig, C. Parish (2004)
Nanocrystalline indium oxide-doped tin oxide thin film as low temperature hydrogen sensorSensors and Actuators B-chemical, 97
-
E. Zampiceni, E. Comini, G. Faglia, G. Sberveglieri, S. Kaciulis, L. Pandolfi, S. Viticoli (2003)
Composition influence on the properties of sputtered SnWO filmsSensors and Actuators B-chemical, 89
-
I. Jiménez, J. Arbiol, G. Dezanneau, A. Cornet, J. Morante (2003)
Crystalline structure, defects and gas sensor response to NO2 and H2S of tungsten trioxide nanopowdersSensors and Actuators B-chemical, 93
- Publisher
- Springer Journals
- Copyright
- Copyright © 2006 by Springer Science + Business Media, LLC
- Subject
- Materials Science; Optical and Electronic Materials; Ceramics, Glass, Composites, Natural Materials; Characterization and Evaluation of Materials; Electrochemistry; Crystallography and Scattering Methods
- ISSN
- 1385-3449
- eISSN
- 1573-8663
- DOI
- 10.1007/s10832-006-9934-9
- Publisher site
- See Article on Publisher Site
Abstract
Carbon nanotube (CNT) is a useful material for gas-sensing applications because of its high surface to volume ratio structure. In this work, multi-wall CNTs are incorporated into tin oxide thin film by means of powder mixing and electron beam evaporation and the enhancement of gas-sensing properties is presented. The CNTs were combined with SnO2powder with varying concentration in the range of 0.25–5% by weight and electron beam evaporated onto glass substrates. From AFM and TEM characterization, CNT inclusion in SnO2thin film results in the production of circular cone protrusions of CNT clusters or single tube coated with SnO2layer. Experimental results indicate that the sensitivity to ethanol of SnO2thin film increases by the factors of 3 to 7, and the response time and recovery time were reduced by the factors of 2 or more with CNT inclusion. However, if the CNT concentration is too high, the sensitivity is decreased. Moreover, the CNT doped film can operate with good sensitivity and stability at a relatively low temperature of 250–300∘C. The improved gas-sensing properties should be attributed to the increasing of surface adsorption area of metal oxide produced by CNT protrusion.
Journal
Journal of Electroceramics – Springer Journals
Published: Jan 1, 2006