First-principles study on the synergistic effects of codoped anatase TiO2 photocatalysts codoped with N/V or C/Cr

An effective compensated codoping approach is described to modify the photoelectrochemical prop- erties of anatase TiO2 by doping with nonmetals (N or C) and transition metals (V or Cr) impurities. Here, com- pensated codoped TiO2 systems are constructed with different dopant species and sources, an...

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Published in半导体学报:英文版 no. 10; pp. 5 - 11
Main Author 许文慧 马新国 吴桐 贺之琦 王辉虎 黄楚云
Format Journal Article
LanguageEnglish
Published 01.10.2014
Subjects
TiO2光催化剂
共掺杂
协同效应
氧化还原电位
第一性原理
载流子迁移率
过渡金属
锐钛矿型
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ISSN1674-4926
DOI10.1088/1674-4926/35/10/102002

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Summary:An effective compensated codoping approach is described to modify the photoelectrochemical prop- erties of anatase TiO2 by doping with nonmetals (N or C) and transition metals (V or Cr) impurities. Here, com- pensated codoped TiO2 systems are constructed with different dopant species and sources, and then their dopant formation energies and electronic structures are performed to study the stability and visible-light photoactivity by first-principles plane-wave ultrasoft pseudopotential calculations, respectively. The calculated results demonstrate that the codoping with transition metals facilitates the enhancement of the concentration of p-type dopants (N and C) in a host lattice. Especially, compensated codoping not only reduces the energy gap, to enhance the optical ab sorption, and eliminate the local trapping, to improve carrier mobility and conversion efficiency, but it also keeps the oxidation-reduction potential of the conduction band edge. These results are conducive to the understanding of the synergistic mechanism of the photocatalytic activity of TiO2 that is enhanced by codoping.
Bibliography:first-principles; photocatalysis; TiO2; codoping
An effective compensated codoping approach is described to modify the photoelectrochemical prop- erties of anatase TiO2 by doping with nonmetals (N or C) and transition metals (V or Cr) impurities. Here, com- pensated codoped TiO2 systems are constructed with different dopant species and sources, and then their dopant formation energies and electronic structures are performed to study the stability and visible-light photoactivity by first-principles plane-wave ultrasoft pseudopotential calculations, respectively. The calculated results demonstrate that the codoping with transition metals facilitates the enhancement of the concentration of p-type dopants (N and C) in a host lattice. Especially, compensated codoping not only reduces the energy gap, to enhance the optical ab sorption, and eliminate the local trapping, to improve carrier mobility and conversion efficiency, but it also keeps the oxidation-reduction potential of the conduction band edge. These results are conducive to the understanding of the synergistic mechanism of the photocatalytic activity of TiO2 that is enhanced by codoping.
Xu Wenhui, Ma Xinguo,Wu Tong, He Zhiqi, Wang Huihu, Huang Chuyun(1 School of Science, Hubei University of Technology, Wuhan 430068, China 2School of Mechanical Engineering, Hubei University of Technology, Wuhan 430068, China 3 Hubei Collaborative Innovation Center for High-Efficient Utilization of Solar Energy, Hubei University of Technology, Wuhan 430068, China)
11-5781/TN
ISSN:1674-4926
DOI:10.1088/1674-4926/35/10/102002