Vacancy formation in MoO3: hybrid density functional theory and photoemission experiments

Akande Salawu Omotayo; Chroneos Alexander; Vasilopoulou Maria; Kennou Stella; Schwingenschlogl Udo

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Vacancy formation in MoO3: hybrid density functional theory and photoemission experiments

机译：MoO3中的空位形成：混合密度泛函理论和光发射实验

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Molybdenum oxide (MoO3) is an important material that is being considered for numerous technological applications, including catalysis and electrochromism. In the present study, we apply hybrid density functional theory to investigate O and Mo vacancies in the orthorhombic phase. We determine the vacancy formation energies of different defect sites as functions of the electron chemical potential, addressing different charge states. In addition, we investigate the consequences of defects for the material properties. Ultraviolet photoemission spectroscopy is employed to study the valence band of stoichiometric and O defective MoO3. We show that O vacancies result in occupied in-gap states.

机译：氧化钼（MoO3）是一种重要的材料，正在被许多技术应用所考虑，包括催化和电致变色。在本研究中，我们应用混合密度泛函理论来研究正交晶相中的O和Mo空位。我们确定不同缺陷位点的空位形成能作为电子化学势的函数，以解决不同的电荷状态。此外，我们调查了缺陷对材料性能的影响。紫外光发射光谱用于研究化学计量和O缺陷的MoO3的价带。我们显示O空位会导致间隙内状态占据。

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《Journal of Materials Chemistry, C. materials for optical and electronic devices》 |2016年第40期|共6页
作者
Akande Salawu Omotayo; Chroneos Alexander; Vasilopoulou Maria; Kennou Stella; Schwingenschlogl Udo;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
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1. Vacancy formation in MoO3: hybrid density functional theory and photoemission experiments [J] . Akande Salawu Omotayo, Chroneos Alexander, Vasilopoulou Maria, Journal of Materials Chemistry, C. materials for optical and electronic devices . 2016,第40期

机译：MoO3中的空位形成：混合密度泛函理论和光发射实验
2. A density functional theory based comparative study of hybrid photoemissions from Cl@C-60, Br@C-60 and I@C-60 [J] . Shields Dakota, De Ruma, Ali Esam, The European physical journal, D. Atomic, molecular, and optical physics . 2020,第9期

机译：CL @ C-60，BR @ C-60和I @ C-60杂交光电比较研究的基于密度泛函理论
3. Dispersion in the Mott insulator UO2: A comparison of photoemission spectroscopy and screened hybrid density functional theory [J] . Roy LE, Durakiewicz T, Martin RL, Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological . 2008,第13期

机译：在Mott绝缘体UO2中的分散：光发射光谱和筛选的混合密度泛函理论的比较
4. Density of States of Cs_3Sb Calculated Using Density-Functional Theory for Modeling Photoemission [C] . Daniel Finkenstadt, Samuel G. Lambrakos, Kevin L. Jensen, Optical modeling and performance predictions IX . 2017

机译：使用密度泛函理论计算光发射Cs_3Sb态的密度
5. A structural prediction of copper sulfide and study of its electronic properties and vacancy forming trend using density functional theory. [D] . Khatri, Prashant. 2014

机译：利用密度泛函理论研究硫化铜的结构预测及其电子性质和空位形成趋势。
6. Investigating Polaron Formation in Anatase and BrookiteTiO2 by Density Functional Theory with Hybrid-Functionaland DFT + U Methods [O] . JeffreyRoshan De Lile, Sung Gu Kang, Young-A Son, 2019

机译：研究锐钛矿和板钛矿中的极化子形成混合功能的密度泛函理论研究TiO2和DFT + U方法
7. Correction to “Critical Assessment of the Thermodynamics of Vacancy Formation in Fe2O3 Using Hybrid Density Functional Theory” [O] . Amitava Banerjee, Aaron A. Kohnert, Edward F. Holby, 2021

机译：纠正“使用混合密度函数理论”Fe2O3中空位形成的临界评估“

Vacancy formation in MoO3: hybrid density functional theory and photoemission experiments

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