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Hybrid sol-gel thin films doped with a pH indicator : Effect of organic modification on optical pH response and surface hydrophobicity

Optical sensors for application in innovative wearable sensing systems such as textile- integrated systems and wireless sensor platforms rely on the development of low-cost multifunctional materials compatible with standard fabrication technologies. We are developing optically responsive pH sensitive sol-gel coatings for integration with a mobile wireless smart tag sensing system. For this application, we have fabricated a range of thin pH sensitive films using bromocresol green (BCG) indicator immobilised in inorganic–organic silica hybrid matrices prepared by a sol–gel method and deposited by spin-coating onto glass substrates. The surface properties and hydrophobicity of the films were varied by using the inorganic sol-gel precursor tetraethoxysilane (TEOS) together with either methyltriethoxysilane (MTES), ethyltriethoxysilane (ETES), phenyltrimethoxysilane (FTMS) or glycidoxypropyltrimethoxysilane (GLYMO) as organically modified sol–gel precursors, co- polymerised in different ratios. Spectral characterisation of the films was performed using visible absorption spectroscopy. The shift in absorption maxima and other spectral changes of the different matrices have been identified, and the apparent pKapp values of the immobilised BCG pH indicator determined. The surface wettability properties of the films have been studied by measuring the contact angle of water, formamide and diiodomethane which has allowed the estimation of the surface free energy (SFE) using three different models: Owens-Wendt, Wu and van Oss- Chaudhury-Good. It is shown that the surface free energy of the hybrid films is directly related to the type and the degree of organic modification, which in turn has a significant effect on the pH response times of these sensing films.

optical pH sensors; sol-gel thin films; surface free energy; ormosil; bromocresol green; wearable sensors

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