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Highly sensitive gas sensor based on integrated titania nanosponge arrays

2006; American Institute of Physics; Volume: 88; Issue: 10 Linguagem: Inglês

10.1063/1.2185247

1520-8842

Abu Samah Zuruzi, Andrei Kolmakov, Noel C. MacDonald, Martin Moskovits,

Advanced Chemical Sensor Technologies

Highly sensitive gas sensors were fabricated using nanostructured titania pad arrays. Nanostructured titania (NST) formed is sponge-like consisting of interconnected nanoscale wires and walls, which are made up of anatase nanocrystals. Electrical characterization indicates that contacts were ohmic and NST was highly sensitive to O2. Variations of hundreds of oxygen molecules over a 20μm NST square pad sensing element were detected at 250°C. The NST-based sensor operates at lower temperatures, has fast response time, and superior sensitivity relative to oxygen sensors based on porous undoped titania reported in the literature.