Hydroxyl Radical Generation Depending on O2 or H2O by a Photocatalyzed Reaction in an Aqueous Suspension of Titanium Dioxide

Photocatalytic production of the electron (e - ) and positive hole (h + ) in an aqueous suspension of TiO 2 (anatase form) under illumination by near-UV light (295-390 nm) generated the superoxide (O 2 - ) and hydroxyl radical (*OH), which both proceeded linearly with reaction time, while H 2 O 2 accumulated non-linearly. Under anaerobic conditions (introduced Ar gas), the yields of three active species of oxygen were decreased to 10-20% of those detected in the air-saturated reaction. The electron spin resonance (ESR) signal characteristics of *OH were obtained when a spin trap of 5,5-dimthyl-1-pyrroline-N-oxide (DMPO) was included in the illuminating mixture. The intensity of the ESR signal was increased by Cu/Zn superoxide dismutase, and decreased under anaerobic conditions, amounting to only 20% of the intensity detected in the aerobic reaction. The addition of H 2 O 2 to the reaction mixture resulted in about an 8-fold increase of *OH production in the anaerobic reaction, but only about 1.5-fold in the aerobic reaction, indicating that e - generated by the photocatalytic reaction reduced H 2 O 2 to produce *OH plus OH - . On the other hand, D 2 O lowered the yield of *OH generation to 18% under air and 40% under Ar conditions, indicating the oxidation of H 2 O by h + . The addition of Fe(III)-EDTA as an electron acceptor effectively increased *OH generation, 2.3-fold in the aerobic reaction and 8.4-fold in the anaerobic reaction, the yield in the latter exceeding that in the air-saturated reaction.