Hydrophobically modified poly(vinyl alcohol)s of varied copolymer composition were tested as active media for optical sensing of humidity. Copolymer thin films were deposited on silicon substrate using water-methanol solution in a volume ratio of 20:80 and concentration of 1 wt%. Films were subjected to low (60 °C) and moderate (180 °C) temperature annealing in order to study the temperature influence on optical and humidity sensing properties. Refractive index, extinction coefficient along with thickness of the films were determined by non-linear minimization of the goal function comprising measured and calculated reflectance spectra at normal light incidence. The humidity sensing ability of the films was studied through reflectance measurements at different humidity levels in the range 5–95 %RH. The influence of temperature annealing on optical and sensing properties was demonstrated and discussed.
In this paper, the possibility to design flexible humidity sensors by spin-coating ofmoisture-sensitive polymer on three types of substrates—poly(ethylene terephthalate) (PET),polylactide (PLA) and composite polysiloxane is investigated. The optical properties, surfacemorphology and roughness of the substrates covered with polymer are studied by transmittancemeasurements and surface profiling, respectively. Thin polymer films of amphiphilic copolymerobtained by partial acetalization of poly(vinyl alcohol) are used as humidity sensitive media. Thesensing properties are probed through transmittance measurements at different levels of relativehumidity (RH). The influence of substrate type is studied by comparing the hysteresis of flexiblesensors with those that are deposited on glass substrates.
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