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Synthesis and gas sensing properties of nanostructured CoSb(2)O(6) microspheres

Nanostructured CoSb(2)O(6) microspheres were prepared by a colloidal method using cobalt nitrate, antimony trichloride and n-dodecylamine in ethyl alcohol. Microwave radiation, with a power of ~160W, was applied for solvent evaporation. The full evaporation was reached after a non-continuous radiati...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2009-12, Vol.143 (1), p.278-285
Main Authors: Michel, C R, Guillen-Bonilla, H, Martinez-Preciado, A H, Moran-Lazaro, J P
Format: Article
Language:English
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Summary:Nanostructured CoSb(2)O(6) microspheres were prepared by a colloidal method using cobalt nitrate, antimony trichloride and n-dodecylamine in ethyl alcohol. Microwave radiation, with a power of ~160W, was applied for solvent evaporation. The full evaporation was reached after a non-continuous radiation for 200s. The resulting material was then heated at 200(o)C in static air. At this temperature, a large number of microspheres with smooth surface were formed. The calcination at 700(o)C produced single-phase nanostructured CoSb(2)O(6) hollow microspheres. The surface nanoparticles had an average particle size of 38nm. The gas sensing properties of CoSb(2)O(6) thick films were investigated at 400(o)C. The direct current measurements showed resistance variations (R) of ~130W in CO(2) and ~75W in O(2). In a previous work, these values were 450 and 180W, respectively, corresponding to CoSb(2)O(6) synthesized by a solution-polymerization method. Even though a decrease in R was recorded in the present study, more stable measurements in carbon dioxide were obtained, with lower resistance values. The polarization curves showed a large non-ohmic behavior, with a significant ability to detect variations in the concentration of CO(2) and O(2). Alternating current was also used to characterize the gas sensing properties of CoSb(2)O(6). The measurements in AC revealed better repeatability in gas detection and also the capability to detect variations in the gas concentration.
ISSN:0925-4005
DOI:10.1016/j.snb.2009.09.041