Electronic Structure and Optical Properties of Non-metals (N, F, P, Cl ,S)-doped Cubic NaTaO3 by Density Functional Theory
Electronic structure and optical properties of non-metals (N, S, F, P, Cl) -doped cubic NaTaO3 were investigated systematically by density functional theory (DFT). The results showed that the substitution of (N, S, P, Cl) for O in NaTaO3 was effective in narrowing the band-gap relative to the F-doped NaTaO3. The larger red shift of the absorption edge and the higher visible light absorption at about 520 nm were found for the (N and P)-doped NaTaO3. The excitation from the impurity states to the conduction band may account for the red shift of the absorption edge in an electron-deficiency non-metal doped NaTaO3. The obvious absorption in the visible light region for (N and P)-doped NaTaO3 provides an important guidance for the design and preparation of the visible light photoactive materials.
NaTaO3 Electronic Structure Optical Property Density Functional Theory
Peilin Han Xiaojing Wang YanHong Zhao Changhe Tang
College of Chemistry and Chemical Engineering, Inner Mongolia University, Huhehaote 010021, P. R. China
国际会议
青岛
英文
1245-1248
2009-10-09(万方平台首次上网日期,不代表论文的发表时间)