Zhansheng Lu scite author profile

Using the DFT+U method, i.e., first principles density functional theory calculations with the inclusion of on-site Coulomb interaction, the effects of Pd doping on the O vacancy formation energy (E(vac)) in CeO(2) has been studied. We find that E(vac) is lowered from 3.0 eV in undoped ceria to 0.6 eV in the Pd-doped compound. Much of this decrease can be attributed to emerging Pd-induced gap states above the valence band and below the empty Ce 4f states. These localized defect states involve the Pd ion and its nearest neighbors, which are also the main acceptors of the extra electrons left on reduction. The effect of the Pd dopant on the geometric structure is very modest for CeO(2) but considerable for CeO(2-x).

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C3N monolayers as promising candidates for NO2 sensors

Zhang

et al. 2018

Sensors and Actuators B: Chemical

189

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Oxygen vacancy formation energy at the Pd/CeO2(111) interface

Yang

Luo

et al. 2007

Physics Letters A

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Structural and electronic properties of NM-doped ceria (NM = Pt, Rh): a first-principles study

Yang

Luo

et al. 2007

J. Phys.: Condens. Matter

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The effects of noble metal (NM) dopants (NM = Pt, Rh) on the structural and electronic properties of ceria are studied using a density functional theory (DFT) method, with the inclusion of on-site Coulomb interaction (DFT+U). It is found that these NM dopants give rise to large perturbations of the atomic and electronic structures of ceria and induce metal-induced gap states at the Fermi level suitable for accommodating extra electrons, thereby lowering the reduction energy of ceria and making the NM-doped cerias more reducible than pure ceria. This mechanism for facilitating the reduction of ceria is different from that of Zr-doped ceria where the increased reducibility is largely due to the structural distortions and not to electronic modifications.

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First-principles study of thePt∕CeO2(111)interface

Yang

Luo

2007

Phys. Rev. B

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Zhansheng Lu

Oxygen vacancy formation energy in Pd-doped ceria: A DFT+U study

C3N monolayers as promising candidates for NO2 sensors

Oxygen vacancy formation energy at the Pd/CeO2(111) interface

Structural and electronic properties of NM-doped ceria (NM = Pt, Rh): a first-principles study

First-principles study of thePt∕CeO2(111)interface

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