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

Abstract

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 400°C. 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, 540ppm 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.