A well known gasochromic material is Pt-particle-dispersed tungsten trioxide (Pt/WO3). Its optical properties could make it effective as a hydrogen-gas sensor. In this study, Pt-nanoparticle dispersed WO3, thin films were prepared using the sol-gel process, and their optical and electrical properties dependent on the working environment (i.e. temperature, hydrogen gas concentration, oxygen partial pressure etc) were investigated. The Pt/WO3 thin films prepared at 400 degrees C showed the largest change in optical transmittance and electrical conductivity when exposed to hydrogen gas compared with the films prepared at other temperatures. The optical absorbance and electrical conductivity were found to be dependent on the hydrogen and oxygen gas concentration in the atmosphere because generation and disappearance of W5+ in the thin films depend on the equilibrium reaction between injection and rejection of H+ into and from the thin films. In addition, the equilibrium reaction is depends on the hydrogen and oxygen gas concentrations.
