Electronic and geometrical properties of Ag doping on anatase TiO2 were investigated by means of first principles density functional theory calculations.

We have investigated the atomic and electronic structure of the Pb doped anatase TiO2 using first-principles PAW-GGA method.

We have calculated the optical properties of anatase TiO_2 and anatase TiO_2 by N-doping by plane-wave pseudo-potential method(PWP),namely the imaginary part of dielectric function ε_2(ω),the optical absorption coefficient I(ω)and the reflectivity R(ω).

First-principles study of the electronic structure of N-doping anatase TiO_2;

Anatase TiO2 nanocrystallites were prepared from TiCl4 with addition of aqueous ammonia by changing Ti(OH)4 precipitate into its corresponding ethanol-gels(by extensive washing with absolute ethanol) followed by supercritical drying in ethanol medium.

By using the tetrabutyl titanate solution,the anatase TiO2 nanoparticle was synthesized and was characterized by TGA,TEM,BET,and CRD.

The results show that C,P,N,S doped anatase TiO2 all can cause the absorption band of optical catalysis to red-shift, the absorpotion coefficient in the visible light r.