Communication: A low-cost method of producing nanostructured titania thick
films is required if nanustructured titania is to be used to its full poten
tial in applications in areas ranging from optics via solar energy to gas s
ensing. It is demonstrated that screen printing forms the basis of such a m
ethod, and the effect of annealing on the nanophase and the role of doping
to prevent coarse-grain growth at relatively high temperature are discussed
. Finally, miniaturized devices with deposited titania layers are shown to
act as sensors for CO, their performance depending on the size of the grain
s.