Functional micro- and nanostructured layers based on tungsten oxide for high-temperature hydrogen detectors on the “Pt-metal oxide-SiC” platform
Author:
Publisher
Pleiades Publishing Ltd
Subject
General Engineering,Condensed Matter Physics,General Materials Science
Link
http://link.springer.com/content/pdf/10.1134/S1995078012030056.pdf
Reference12 articles.
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2. A. Trinchi, S. Kandasamy, and W. Wlodarski, “High Temperature Field Effect Hydrogen and Hydrocarbon Gas Sensors Based on SiC MOS Devices,” Sensors Actuat. B 133, 705–716 (2008).
3. S. Kandasamy, A. Trinchi, W. Wlodarski, E. Comini, and G. Sberveglieri, “Hydrogen and Hydrocarbon Gas Sensing Performance of Pt/WO3/SiC MROSiC Devices,” Sensors Actuat. B 111–112, 111–116 (2005).
4. S. Nakagomi, K. Okuda, and Y. Kokubun, “Electrical Properties Dependent on H2 Gas for New Structure Diode of Pt-thin WO3-SiC,” Sensors Actuat. B 96, 364–371 (2003).
5. G. Soto, W. de la Cruz, J. A. Díaz, R. Machorro, F. F. Castillón, and M. H. Farías, “Characterization of Tungsten Oxide Films Produced by Reactive Pulsed Laser Deposition,” Appl. Surf. Sci. 218, 281–289 (2003).
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1. Comparison of hydrogen detection by WO /SiC and Pt/WO /SiC structures using amperometric and potentiometric modes of measurement;Thin Solid Films;2019-01
2. Tungsten-oxide thin films for a high-temperature semiconductor hydrogen detector based on a 6H-SiC crystal;Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques;2016-05
3. Effect of hydrogen on the electrical characteristics of structural elements of the Pt/WO x /6H-SiC;Semiconductors;2015-09
4. Chemical composition and crystal structure of tungsten oxide films;Glass Physics and Chemistry;2014-09
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