Visible-light-active titanium oxide photocatalyst realized by an oxygen-deficient structure and by nitrogen doping

A visible-light (vis)-active titanium oxide photocatalyst was prepared by a simple wet process: the calcination of the hydrolysis product of Ti(SO4)(2) with ammonia using an ordinary electric furnace in dry air at 400degreesC. The color of this photocatalyst was vivid yellow and absorbed light in the blue (400nm) to bluish-green (550nm) region exclusively. Its structure was characterized to anatase with oxygen-deficient stoichiometry by XRD and X-ray photoelectron spectroscopy. Nitrogen was also detected, but only in trace amounts. Using blue-light-emitting diodes as a light source, 540 ppm of acetone was decomposed within 36h and a stoichiometric yield Of CO2 was obtained. From the results of the crystalline size D, it was found that vis-activity could be realized on polycrystalline particles and the grain-boundaries (GBs) are thought to be important, since oxygen vacancies are easily created in GBs, which could form a GB state. Finally, we concluded that oxygen-deficient sites formed in GBs are important to emerge vis-activity, and nitrogen doped in the part of oxygen-deficient sites are important as a blocker for reoxidation. (C) 2002 Elsevier Science B.V. All rights reserved.