Chinese Version

Professor at Department of Inorganic Nonmetallic Materials

wbcao@ustb.edu.cn

+86-010-62332457

Main Building, Room 425

Published Research (English only)

(1)     Jianlei Kuang and Wenbin Cao. Stacking faults induced high dielectric permittivity of SiC wires. Applied Physics Letters, (2013) 103: 112906.

(2)     Jianlei Kuang and Wenbin Cao. Silicon Carbide Whiskers: Preparation and High Dielectric Permittivity. Journal of the American Ceramic Society, (2013) 96 (9): 2877-2880.

(3)     Jianlei Kuang and Wenbin Cao. Synthesis of alpha-SiC particles at 1200 °C by microwave heating. Powder Technology, (2013) 247: 106-111.

(4)     M. Khan, X. Junna, W. Cao and Zi-Kui Liu. Preparation of Y-doped TiO2 by Hydrothermal Method and Investigation of Its Visible Light Photocatalytic Activity by the Degradation of Methylene Blue, Journal of Molecular Catalysis A: Chemical, (2013)376:71-77.

(5)     Matiullah Khan and Wenbin Cao, Cationic (V, Y)-codoped TiO2 with enhanced visible light induced photocatalytic activity: A combined experimental and theoretical study, J of Applied Physics, 114, 183514 (2013).

(6)     Matiullah Khan, Peng Jiang, Jing Li, and Wenbin Cao, Enhanced photoelectrochemical properties of TiO2 by codoping with tungsten and silver, J of Applied Physics, 115, 153103 (2014).

(7)     Wen-Xiu Liu, Peng Jiang, Wei-Na Shao, Jun Zhang, Wen-Bin Cao, A novel approach for the synthesis of visible-light-active nanocrystalline N-doped TiO2 photocatalytic hydrosol, A novel approach for the synthesis of visible-light-active nanocrystalline N-doped TiO2 photocatalytic hydrosol, Solid State Sciences, 33 (2014) 45-48.

(8)     Matiullah Khana, Jing Li, Wenbin Cao, Asad Ullah, Advancement in the photocatalytic properties of TiO2 by vanadium and yttrium codoping: Effect of impurity concentration on the photocatalytic activity, Separation and Purification Technology, 130 (2014) 15-18.

(9)     M. Khan, Y. Song, et al., Effect of V Doping Concentration on the Electronic Structure, Optical and Photocatalytic Properties of Nano-sized V-doped Anatase TiO2, Materials Chemistry and Physics, 142 (2013) 148-153.

(10) M. Khan, Wenbin Cao, Development of photocatalyst by combined nitrogen and yttrium doping, Materials Research Bulletin 49 (2014) 21-27.

(11) Matiullah Khan、Junna Xu、Ning Chen、Wenbin Cao ，First principle calculations of the electronic and optical properties of pure and (Mo, N) co-doped anatase TiO2, Journal of Alloys and Compounds, 513(2012), 2:539-545,.

(12) M. Khan, W. Cao et al. Ab initio calculations for properties of Y-doped anatase TiO2. Phys. Status Solidi B, 250 (2013) 2:364-369.

(13) J. Xu, Q. Liu, S. Lin and W. Cao. One-step synthesis of nanocrystalline N-doped TiO2 powders and their photocatalytic activity under visible light irradiation, Res Chem Intermed , (2013) 39:1655-1664.

(14) M. Khan, W. Cao, et al. Ab-initio calculations of synergistic chromiume nitrogen codoping effects on the electronic and optical properties of anatase TiO2, Vacuum, 92 (2013) 32-38.

(15) F. Wang, J. Xu, et al. Effects of NH4+ and Cl- on the preparation of nanocrystalline TiO2 by hydrothermal method. Res Chem Intermed (2013) 39:1645-1654.

(16) Matiullah Khan et al. Influence of Tungsten Doping Concentration on the Electronic and Optical Properties of Anatase TiO2, Current Applied Physics, (2013) 13:1376-1382.

(17) Matiullah Khan, Wenbin Cao and Mishkat Ullah. Ab initio calculations for properties of Y-doped anatase TiO2. Phys. Status Solidi B, (2012)1-6.

(18) Matiullah Khan, Xu Junna, Chen Ning and Wenbin Cao. Electronic and optical properties of pure and Mo doped anatase TiO2 using GGA and GGA+U calculations，Physica B. 407 (2012) 3610-3616.