Titania is a semiconductor and photocatalyst that is also chemically
inert. With its bandgap of 3.0, to activate the photocatalytic property
of titania requires light of about 390 nm wavelength, which is in the
ultra-violet (UV), where sunlight is very low in intensity. A method and
devices are disclosed wherein stress is induced and managed in a thin
film of titania in order to shift and lower the bandgap energy into the
longer wavelengths that are more abundant in sunlight. Applications of
this stress-induced bandgap-shifted titania photocatalytic surface
include photoelectrolysis for production of hydrogen gas from water,
photovoltaics for production of electricity, and photocatalysis for
detoxification and disinfection.