R. Angelucci et al., Permeated porous silicon suspended membrane as sub-ppm benzene sensor for air quality monitoring, J POROUS MA, 7(1-3), 2000, pp. 197-200
To realise advanced microsensors for a reliable monitoring of very low conc
entrations of pollutant species such as NOx, SO2, CO, O-3 and aromatic hydr
ocarbons, the use of porous silicon (PS) permeated with semiconducting oxid
es has been explored. To reduce the power consumption and to make feasible
the device to operate in a fast pulsed temperature mode, a novel sensor arc
hitecture has been designed. The main feature of the device is represented
by a permeated suspended macroporous Si membrane, few tens of microns thick
. In this paper the porous silicon formation through a suspended silicon me
mbrane and the morphological characterization of the PS layer are reported.
Moreover, the performance of a C6H6 gas sensor based on the suspended macr
oporous Si membrane (congruent to 30 mu m thick), permeated with the chemic
al precursor of Sn oxide is presented. The results have demonstrated the fe
asibility to realize a macroporous silicon suspended membrane with high spe
cific surface area, efficient electrical insulation and negligible warpage.
Furthermore, the permeation of the oxidized macroporous silicon membrane w
ith SnO2 has been proved to be a valuable approach to fabricate gas sensors
suitable to detect aromatic hydrocarbons in a sub-ppm range.