Role of oxygen vacancies in the surface evolution of H at CeO2(111): a charge modification effect

Wu Xin-Ping; Gong Xue-Qing; Lu Guanzhong

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Role of oxygen vacancies in the surface evolution of H at CeO2(111): a charge modification effect

机译：氧空位在CeO2（111）上H的表面演化中的作用：电荷修饰效应

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Diffusion processes and reactions of H at stoichiometric and reduced CeO2(111) surfaces have been studied by using density functional theory calculations corrected by on-site Coulomb interactions (DFT + U). Oxygen vacancies on the surface are determined to be able to significantly affect the behavior of H by modifying the charge of surface lattice O through the occurrence of Ce3+. It has been found that, at the reduced CeO2(111) surface, the adsorption strength of H as well as the H coupling barrier can be dramatically reduced compared to those at the stoichiometric surface, while H2O formation barrier is not significantly affected. Moreover, the diffusion of H at the reduced surface or into the bulk can occur more readily than that at stoichiometric CeO2(111).

机译：通过使用现场库仑相互作用（DFT + U）校正的密度泛函理论计算，研究了化学计量和还原CeO2（111）表面上H的扩散过程和反应。确定表面上的氧空位能够通过Ce3 +的出现改变表面晶格O的电荷，从而显着影响H的行为。已经发现，在减少的CeO2（111）表面上，与化学计量表面相比，H以及H耦合势垒的吸附强度可以显着降低，而H2O形成势垒没有受到显着影响。而且，与化学计量的CeO2（111）相比，H在还原表面或在本体中的扩散更容易发生。

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《Physical chemistry chemical physics: PCCP》 |2015年第5期|共6页
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Wu Xin-Ping; Gong Xue-Qing; Lu Guanzhong;
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1. Role of oxygen vacancies in the surface evolution of H at CeO2(111): a charge modification effect [J] . Wu Xin-Ping, Gong Xue-Qing, Lu Guanzhong Physical chemistry chemical physics: PCCP . 2015,第5期

机译：氧空位在CeO2（111）上H的表面演化中的作用：电荷修饰效应
2. Exchange between sub-surface and surface oxygen vacancies on CeO2(111): a new surface diffusion mechanism [J] . Hui-Ying Li, Hai-Feng Wang, Yang-Long Guo, Chemical Communications . 2011,第21期

机译：CeO2（111）表面和表面氧空位之间的交换：一种新的表面扩散机制
3. Relative Stability of Near -Surface Oxygen Vacancies at the CeO2(111) Surface upon Zirconium Doping [J] . Otero G. S., Lustemberg P. G., Prado F., The journal of physical chemistry, C. Nanomaterials and interfaces . 2020,第1期

机译：在锆掺杂时CEO2（111）表面接近近呼吸空位的相对稳定性
4. ROLES OF OXYGEN VACANCY IN THE SURFACE REACTIVITY OF CEO2(111) [C] . Chuanlin Zhao, Ye Xu American Chemical Society National Meeting Exposition . 2015

机译：氧空位在CEO2表面反应性中的作用（111）
5. Kinetics and dynamics of molecular oxygen adsorption on Ru(001), and reaction dynamics of gas-phase atomic oxygen on precovered Pt(111) Ir(111), and Ru(001) surfaces. [D] . Wheeler, Marshall Clayton. 1997

机译：分子氧在Ru（001）上的吸附动力学和动力学，以及气相原子氧在预先覆盖的Pt（111）Ir（111）和Ru（001）表面上的反应动力学。
6. Corrigendum: The Structure of Oxygen Vacancies in the Near-Surface of Reduced CeO2 (111) Under Strain [O] . Zhong-Kang Han, Lei Zhang, Meilin Liu, 2019

机译：勘误：在菌株下减少CEO2（111）的近表面氧空位结构
7. VOx (x = 1-4) Submonolayers Supported on Rutile TiO2(110) and CeO2(111) Surfaces: The Structure, the Charge of the Atoms, the XPS Spectrum, and the Equilibrium Composition in the Presence of Oxygen [O] . -1

机译：VOX（X = 1-4）墨水二极管支持金红石TiO2（110）和CEO2（111）表面：结构，原子的电荷，XPS光谱和氧气的平衡组合物

Role of oxygen vacancies in the surface evolution of H at CeO2(111): a charge modification effect

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