Different methods have been reporte

Different methods have been reported for the synthesis of TiO2nanparticles, such as co-precipitation[8], mechanochemical [9], hydrothermal [10,11], sovothermal [12], sol–gel[13],microemulsion[14], microwave [15] etc. Mesoporous TiO2 was synthesized by hydrothermal method using titanium butoxide in the presence of organic solvent to control rapid hydrolysis of titania precursor[16,17]. Kolen'ko et al. [18] hydrothermally synthesized nanocrystalline mesoporous TiO2 from aqueous solution of titanyl oxalate acid via many processing steps. Mesoporous hierarchical TiO2nanostructures were prepared by the hydrothermal method using TiO2powder
in the presence of H2O2 and NaOH [19] via controlled multistep process. To avoid the use of highly hydrolysable titanium butoxide as precursor, and to minimize processing step, in the present study, mesoporous TiO2nanoparticles with higher surface area were synthesized by a single step hydrothermal method at 1801C/24 h in the presence of aqueous based precursors of titanium oxysulfate, urea, sodium dodecyl sulfate and water. For the preparation of Ag doped TiO2 nanocomposites, photoreduction treatment[20,21]is applied for the reduction of Ag þ ions to metallic Ag using UV light. Zhang et al.[22] used L-Tyrosine as reducing agent for Ag doping in TiO2 microspheres. In the present method, for doping Ag into TiO2, an impregnation method was adopted using AgNO3 and green carambola fruit extract at pH 10 under stirring for 12 h at room temperature in dark, in the absence of any photoreduction technique and high cost reducing agent. In this method, polyols and ascorbic acids present in the carambola extract was exploited for the reduction of Ag þ to Ag o at room temperature. They also behaved as capping agents for well dispersion of Ag nanoparticles[23] during impregnation into TiO2.