Fourier-transformed infrared spectroscopy has been employed to study the ad
sorption and photoreactions of acetic acid on powdered TiO2. Molecular acet
ic acid and acetate groups are present on TiO2 following acetic acid adsorp
tion at 35 degreesC. Acetic acid is adsorbed via hydrogen bonding or Lewis
acid-base interaction and is removed at 170 degreesC, leaving acetate on th
e surface. The adsorbed acetate groups adopt a bidentate coordination. CO2(
g) is detected as a photoproduct in the UV irradiation of surface acetate.
In the presence of water, some surface acetate is converted into acetic aci
d, and, in this case, both CO2(g) and CH4(g) are observed in the photoillum
ination. However, effect of water on the reaction rate for CO2(g) and CH4(g
) formation is not significant. O-2 can increase the photodecomposition rat
e of acetic acid on TiO2, and in addition to CH4(g) and CO2(g), oxygenated
compounds such as CH3OH(g), CH2O(g) and HCOOCH3(g) are detected. It is like
ly that these species are generated due to O-2(-), produced from photoelect
rons and O-2, attacking adsorbed acetic acid molecules instead of attacking
acetate groups.