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Sol-Gel Materials for Gas Phase Sensing Using Microhotplate Arrays



N O. Savage, Richard E. Cavicchi, Michael J. Tarlov, Stephen Semancik, J Greg Gillen


Sol-gel chemistry is used to create suspensions (sols) of small particles of materials such as metal oxides. These suspensions can be dried to a gel or powder or used in the sol form for coatings and thin films. One promising application of sol-gel derived metal oxides is as sensor materials. Their small particle sizes lead to higher gas sensitivities than conventional materials. The results of isothermal sensing measurements show that the conductance of sol-gel films can change by as much as a factor of 700 in the presence of methanol compared to materials made by chemical vapor deposition that have a conductance change of a factor of two.Our group works with microhotplate arrays (micromachined silicon devices consisting of multiple individually addressable sensing platforms with electrical contact pads and heaters) for testing sensor materials. Considerable effort has been directed toward depositing oxides on the different sensor platforms by chemical vapor deposition. Because CVD is a temperature-initiated process, materials can be selectively deposited on a single platform of a larger array by heating only platforms where one would like to deposit a material. By introducing multiple precursors while heating different platforms an array can be made which has a number of unique materials for sensing. Sol-gel materials can be easily deposited on the microhotplate arrays by spin coating. This results in the same material on each of the sensing platforms of the array. The challenge in working with sol-gel materials is developing a way to put a different material on each platform of an array. To reach this end, we are developing a technique to mask the surface of microhotplate devices using silane monolayers. Organosilanes such as (tridecafluoro-1,1,2,2-dihydrooctyl) trichlorosilane readily react with the surface hydroxyl groups on the SiO2 surface of the microhotplate arrays leaving a hydrophobic surface.Heating specific array platforms removes the silane monolayer and leaves the underlying hydrophilic SiO2 and electrical contacts exposed. This difference in surface polarity is used to selectively coat sol-gel films (which are water-based) on designated microhotplate platforms. Characterization of the microhotplate arrays with Secondary Ion Mass Spectroscopy (SIMS) has shown how readily the surface modification and removal of the organosilanes occurs with temperature.
Sol-Gel Materials for Gas Phase Sensing Using Microhotplate Arrays


chemical vapor deposition, gas phase sensing, microhotplate arrays, sensor materials, sol-gel materials


Savage, N. , Cavicchi, R. , Tarlov, M. , Semancik, S. and Gillen, J. (2002), Sol-Gel Materials for Gas Phase Sensing Using Microhotplate Arrays, Sol-Gel Materials for Gas Phase Sensing Using Microhotplate Arrays (Accessed June 18, 2024)


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Created January 31, 2002, Updated October 12, 2021