TiO2 sol–gel films doped with gold nanoparticles are used as both optical and conductometric sensors for the detection of CO and H2. Tests performed at 360 8C show for the first time CO- and H2-induced reversible variations in the optical absorption of thin TiO2/Au sol–gel films. The absorbance changes are strongly dependent on both the testing wavelength and the film microstructure. Together with the sensing dynamics observed through an electric interface, it is possible to obtain a better understanding of the mechanisms involved in the detection of both gases. The presence of H2 elicits almost ideal, step-like dynamic responses using conductometric detection.
Gold Nanoparticle-Doped TiO2 Semiconductor Thin Films: Gas Sensing Properties
BUSO, DARIO;MARTUCCI, ALESSANDRO
2008
Abstract
TiO2 sol–gel films doped with gold nanoparticles are used as both optical and conductometric sensors for the detection of CO and H2. Tests performed at 360 8C show for the first time CO- and H2-induced reversible variations in the optical absorption of thin TiO2/Au sol–gel films. The absorbance changes are strongly dependent on both the testing wavelength and the film microstructure. Together with the sensing dynamics observed through an electric interface, it is possible to obtain a better understanding of the mechanisms involved in the detection of both gases. The presence of H2 elicits almost ideal, step-like dynamic responses using conductometric detection.
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