借助密度泛函理论计算了解原型催化剂 TiO2 表面

IF 16.8 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Ruimin Wang, Binli Wang, Abubakar Sadiq Abdullahi, Hongjun Fan
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引用次数: 0

摘要

二氧化钛(TiO2)是最具技术前景的氧化物之一,具有广泛的催化和光催化活性。为了了解二氧化钛体系的几何结构、电子结构、反应活性和反应机理,以及开发性能更好的新型催化剂,人们广泛开展了理论建模,特别是密度泛函理论计算。本综述总结了最近在 TiO2 晶体的明确定义表面方面取得的理论进展,并重点讨论了表面和界面上的结构、吸附和反应。详细讨论了理论方法和模型、表面缺陷、表面掺杂、水分离和 H2 演化、甲醇转化、CO2 还原和 CO 氧化、SOx 和 NOx 降解、CH4 转化、有机污染物降解、CH 键活化和 CC 键形成、染料敏化以及 TiO2 在其他一些领域的应用:
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Understanding the prototype catalyst TiO2 surface with the help of density functional theory calculation

Understanding the prototype catalyst TiO2 surface with the help of density functional theory calculation

Titanium dioxide (TiO2) is one of the most technologically promising oxides with a broad range of catalytic and photocatalytic activities. Theoretical modeling, especially density functional theory calculations, has been extensively carried out to understand the geometric structure, electronic structure, reactivity, and reaction mechanisms of TiO2 systems, as well as to develop new catalysts with improved performances. This review summarizes the recent theoretical progress on the well-defined surfaces of TiO2 crystalline, and focuses on the structures, adsorptions, and reactions on the surface and at the interface. The theoretical methods and models, surface defects, surface doping, water splitting and H2 evolution, methanol conversion, CO2 reduction and CO oxidation, SOx and NOx degradation, CH4 conversion, organic pollutant degradation, CH bond activation and CC bond formation, dye sensitization, as well as the applications of TiO2 in some other fields, have been discussed in detail.

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来源期刊
Wiley Interdisciplinary Reviews: Computational Molecular Science
Wiley Interdisciplinary Reviews: Computational Molecular Science CHEMISTRY, MULTIDISCIPLINARY-MATHEMATICAL & COMPUTATIONAL BIOLOGY
CiteScore
28.90
自引率
1.80%
发文量
52
审稿时长
6-12 weeks
期刊介绍: Computational molecular sciences harness the power of rigorous chemical and physical theories, employing computer-based modeling, specialized hardware, software development, algorithm design, and database management to explore and illuminate every facet of molecular sciences. These interdisciplinary approaches form a bridge between chemistry, biology, and materials sciences, establishing connections with adjacent application-driven fields in both chemistry and biology. WIREs Computational Molecular Science stands as a platform to comprehensively review and spotlight research from these dynamic and interconnected fields.
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