FTIR sensitivity enhancement on Pt/SiO2/Au layered structures: A novel method for CO adsorption studies on Pt surfaces

Specular reflectance FTIR study of carbon monoxide adsorbed on platinum is performed on Pt/SiO₂/Au layered structures prepared by deposition of thin films on silicon (1 0 0) wafers. The layered structures consist of 5 nm thick platinum films over SiO₂ films of varying thicknesses with 50 nm thick reflecting gold films underneath. Due to optical interference effects, the reflectance of each of these structures varies with the incident infrared wavelength and goes through a minimum at a wavelength that depends on the thickness of the SiO₂ layer. The decrease in the reflectance R causes an effective increase in the ΔR/R value resulting in a large increase in the infrared absorption band intensity of linearly-adsorbed CO. The peak height changes with changing the SiO₂ thickness in the structures and is greatest for the sample which has lowest reflectance near the absorption wavelength of CO (∼2100 cm⁻¹). This improvement in the ratio of FTIR signal to background reflectance can be very useful for probing low surface area model catalytic surfaces at atmospheric pressures and under reaction conditions. A spectrum of CO adsorbed on nanofabricated Pt nanowire catalysts on TiO₂ support is also shown as an example of the sensitivity enhancement on layered structures.