Electronic hole transfer in rutile and anatase TiO2: Effect of a delocalization error in the density functional theory on the charge transfer barrier height

Pawet Zawadzki; Jan Rossmeisl; Karsten Wedel Jacobsen

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Electronic hole transfer in rutile and anatase TiO2: Effect of a delocalization error in the density functional theory on the charge transfer barrier height

机译：金红石和锐钛矿型TiO2中的电子空穴转移：密度泛函理论中的离域误差对电荷转移势垒高度的影响

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We analyze the deformation of the potential energy surface (PES) due to the incorrect description of fractional electron systems (the nonlinearity of the energy with electron number) within a (semi)local density functional theory (DFT). Particularly sensitive to this failure are polaronic systems where charge localization is strongly coupled to lattice distortion. As an example we calculate the adiabatic PES for the hole transfer process in rutile and anatase TiO_2. (Semi)local DFT leads to qualitatively wrong, barrierless curves. Removal of the nonlinearity improves the PES shape and allows us to calculate hole mobilities.

机译：在（半）局部密度泛函理论（DFT）中，由于分数电子系统的不正确描述（能量与电子数量的非线性），我们分析了势能表面（PES）的变形。对这种故障特别敏感的是极化子系统，其中电荷定位与晶格畸变紧密耦合。例如，我们计算了金红石和锐钛矿型TiO_2中空穴传输过程的绝热PES。（半）局部DFT导致定性错误的无障碍曲线。消除非线性会改善PES形状，并允许我们计算空穴迁移率。

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来源
《Physical review 》 |2011年第12期| p.121203.1-121203.4| 共4页
作者
Pawet Zawadzki; Jan Rossmeisl; Karsten Wedel Jacobsen;
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作者单位

Department of Physics, Center for Atomic-Scale Materials Design, Technical University of Denmark, DK-2800 Kgs. Lyngby, Denmark;

Department of Physics, Center for Atomic-Scale Materials Design, Technical University of Denmark, DK-2800 Kgs. Lyngby, Denmark;

Department of Physics, Center for Atomic-Scale Materials Design, Technical University of Denmark, DK-2800 Kgs. Lyngby, Denmark;

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正文语种 eng
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Mobility edges; hopping transport; self-trapped or small polarons; density functional theory, local density approximation, gradient and other corrections; other semiconductors;

机译：移动性边缘;跳车运输;自陷或小极化子;密度泛函理论;局部密度近似;梯度和其他校正;其他半导体;

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1. Density functional theory analysis of the structural and electronic properties of TiO2 rutile and anatase polytypes:Performances of different exchange-correlation functionals [J] . Frederic Labat, Philippe Baranek, Christophe Domain The Journal of Chemical Physics . 2007 ,第15期

机译：TiO2金红石型和锐钛型多晶型的结构和电子性能的密度泛函理论分析：不同交换相关官能团的性能
2. Density functional theory analysis of the structural and electronic properties of TiO2 rutile and anatase polytypes: Performances of different exchange-correlation functionals [J] . Labat F, Baranek P, Domain C, The Journal of Chemical Physics . 2007 ,第15期

机译：TiO2金红石型和锐钛型多晶型的结构和电子性能的密度泛函理论分析：不同交换相关官能团的性能
3. Where Do Photogenerated Holes Go in Anatase:Rutile TiO2? A Transient Absorption Spectroscopy Study of Charge Transfer and Lifetime [J] . Kafizas Andreas, Wang Xiuli, Pendlebury Stephanie R., The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2016 ,第5期

机译：锐钛矿：金红石型TiO2中光生空穴在哪里？电荷转移和寿命的瞬态吸收光谱研究
4. Electronic Structure, Charge Transfer and Bonding in Intermetallics Using EELS and Density Functional Theory [C] . C.J. Humphreys, G.A. Botton, D.A. Pankhurst Symposium on high-temperature ordered intermetallic alloys . 1999

机译：使用鳗鱼和密度泛函理论，电子结构，电荷转移和金属间化合物中的粘合
5. Computational Chemistry Meet Semiconductor: Electronic Properties of Wet TiO2 (001) Anatase Surface Functionalized by Transition Metal Doping [D] . Zhang, Yuchi 2013

机译：计算化学与半导体的交汇：通过过渡金属掺杂功能化的湿TiO2（001）锐钛矿表面的电子性质
6. Understanding the anatase–rutile phase junction in charge separation and transfer in a TiO2 electrode for photoelectrochemical water splitting [O] . Ailong Li, Zhiliang Wang, Heng Yin, 2016

机译：了解用于光电化学水分解的TiO2电极中电荷分离和转移中的锐钛矿-金红石相结
7. Electronic hole transfer in rutile and anatase TiO2: Effect of a delocalization error in the density functional theory on the charge transfer barrier height [O] . Zawadzki Pawel, Rossmeisl Jan, Jacobsen Karsten Wedel 2011

机译：金红石和锐钛矿TiO2中的电子空穴转移：密度泛函理论中的离域误差对电荷转移势垒高度的影响

Electronic hole transfer in rutile and anatase TiO2: Effect of a delocalization error in the density functional theory on the charge transfer barrier height

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