2008
DOI: 10.3938/jkps.53.1384
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Characteristics of a NOx Gas Sensor based on a Low-Temperature Co-Fired Ceramic and Ga-Doped ZnO

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Cited by 9 publications
(2 citation statements)
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“…The fabricated sensor showed good sensitivity and a fast response time (30 s) to the NO 2 gas. Additionally, the operating temperature and the power consumptions were greatly decreased compared to previous reports of un-doped ZnO [35] and Ga-doped ZnO film [36].…”
Section: Gas Sensing Analysismentioning
confidence: 56%
“…The fabricated sensor showed good sensitivity and a fast response time (30 s) to the NO 2 gas. Additionally, the operating temperature and the power consumptions were greatly decreased compared to previous reports of un-doped ZnO [35] and Ga-doped ZnO film [36].…”
Section: Gas Sensing Analysismentioning
confidence: 56%
“…To date, several other NO x sensors have been proposed and examples of such devices include: semiconducting metal oxide sensors (GuO et al, 2008;Hwang et al, 2008;Wang et al, 2008;Hoa et al, 2009a;Navale et al, 2009, Qin et al, 2010Firoz et al, 2010) and resistive sensors based on metal-phthalocyanines (Oprea et al, 2007;Shu et al, 2010 ), conjugated systems (Naso et al, 2003;Nomani et al, 2010) as well as carbon nanotubes (Sayago et al, 2008;Ueda et al, 2008) and nanocomposites (Balazsi et al, 2008;Kong et al, 2008;Hoa et al, 2009b;2009c;Leghrib et al, 2010). The scientific research community is currently focusing on the development and investigation of novel materials, which are sensitive toward NO x gases as well as appropriate and well-suited for the solid-state gas sensors.…”
Section: Active Nanomaterials and Sensor Performancementioning
confidence: 99%