Effect of calcination conditions on properties and photocatalytic activities of titanium dioxide and mixtures of titanium dioside and oxide of group IVA and IVB elements

Abstract

Titania nanoparticles were prepared via a sol-gel method using titanium isopropoxide as a precursor and underwent calcination at various conditions. Titania was evaluated for its photocatalytic activity in photocatalytic oxidation of ethylene in gas phase. Various characterization techniques, including XRD, XRF, FTIR and nitrogen adsorption, were employed. Effects of calcination conditions, namely, temperature and holding time in the furnace, on properties of titania nanoparticles were investigated. Titania that was calcined at 200 degree celcius for one hour exhibited the highest photocatalytic activity because of its large specific surface area and absence of rutile phase in the photocatalyst. Four different metal oxides, namely, SiO[subscript 2], ZrO[subscript 2], SnO[subscript 2], and CeO[subscript 2], were added to TiO[subscript 2] to form binary metal oxides. The amount of second metal oxide added was 10 wt%. The mixed oxides were calcined at 200 degree celcius for one hour and were then tested for activities. Addition of the second metal oxide appeared to lower photocatalytic activity of the photocatalyst, when compared to that of pure titania.