论文信息 - Optical sensing of flammable substances using porous silicon microcavities

Optical sensing of flammable substances using porous silicon microcavities

Abstract A porous silicon multilayer, constituted by a Fabry–Perot cavity between two distributed Bragg reflectors, is exposed to vapor of several organic species. Different resonant peak shifts in the reflectivity spectra, ascribed to capillary condensation of the vapor in the silicon pores, have been observed. Starting from experimental data, the layer liquid volume fractions condensed in the sensing stack have been numerically estimated. Values ranging between 0.27 (for ethanol) and 0.33 (for iso-propanol) have been found. Time-resolved measurements show that the solvent identification occurs in less then 10 s.

Luigi Moretti | Ivo Rendina | Luca De Stefano | Antonio Rossi

[1] M. Ghadiri,et al. A porous silicon-based optical interferometric biosensor. , 1997, Science.

[2] Alexander V. Neimark,et al. Capillary condensation in MMS and pore structure characterization , 2001 .

[3] A. Carballar,et al. Internal field distributions in fiber Bragg gratings , 1997, IEEE Photonics Technology Letters.

[4] Irving P. Herman,et al. Use of hybrid phenomenological and statistical effective-medium theories of dielectric functions to model the infrared reflectance of porous SiC films , 2000 .

[5] A. Kux,et al. Adsorbate effects on photoluminescence and electrical conductivity of porous silicon , 1994 .

[6] L. Canham,et al. Vapor sensing using the optical properties of porous silicon Bragg mirrors , 1999 .

[7] Lorenzo Pavesi,et al. Porous silicon microcavities as optical chemical sensors , 2000 .

[8] Hans Arwin,et al. Reversible and irreversible control of optical properties of porous silicon superlattices by thermal oxidation, vapor adsorption, and liquid penetration , 1998 .

[9] Trevor M. Benson,et al. Solvent detection using porous silicon optical waveguides , 1998 .