In the presence of low-intensity UV lights, lattice oxygen is extracted fro
m the TiO2 surface at room temperature by adsorbed formic acid. Transient p
hotocatalytic oxidation (PCO) and decomposition (PCD) of formic acid to CO2
and H2O were combined with interrupted reaction and temperature-programmed
desorption to directly show that lattice oxygen is the oxidizing species d
uring PCD, whereas adsorbed oxygen oxidizes organics during PCO. The rates
of lattice oxygen extraction and diffusion of lattice oxygen from the TiO2
bulk to the surface to replenish the extracted oxygen were measured. The in
itial rate of decomposition (oxidation) of formic acid in the absence of ga
s-phase O-2 is one-seventh the rate in 3% O-2. Lattice oxygen vacancies are
readily replenished by O-2 in the dark at room temperature, but H2O does n
ot re-oxidize them, even during UV exposure. Surface diffusion of formic ac
id to active sites does not limit photocatalytic reaction. Lattice oxygen e
xtraction causes slow deactivation of TiO2. (C) 2000 Academic Press.