Regulating the surface of nanoceria and its applications in heterogeneous catalysis

IF 8.2 1区化学 Q1 CHEMISTRY, PHYSICAL

Surface Science Reports Pub Date : 2018-03-01 DOI:10.1016/j.surfrep.2018.02.001

Yuanyuan Ma , Wei Gao , Zhiyun Zhang , Sai Zhang , Zhimin Tian , Yuxuan Liu , Johnny C. Ho , Yongquan Qu

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引用次数: 123

Abstract

Ceria (CeO₂) as a support, additive, and active component for heterogeneous catalysis has been demonstrated to have great catalytic performance, which includes excellent thermal structural stability, catalytic efficiency, and chemoselectivity. Understanding the surface properties of CeO₂ and the chemical reactions occurred on the corresponding interfaces is of great importance in the rational design of heterogeneous catalysts for various reactions. In general, the reversible Ce³⁺/Ce⁴⁺ redox pair and the surface acid-base properties contribute to the superior intrinsic catalytic capability of CeO₂, and hence yield enhanced catalytic phenomenon in many reactions. Particularly, nanostructured CeO₂ is characterized by a large number of surface-bound defects, which are primarily oxygen vacancies, as the surface active catalytic sites. Many efforts have therefore been made to control the surface defects and properties of CeO₂ by various synthetic strategies and post-treatments. The present review provides a comprehensive overview of recent progress in regulating the surface structure and composition of CeO₂ and its applications in catalysis.

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纳米陶瓷表面调控及其在多相催化中的应用

铈(CeO2)作为非均相催化的载体、添加剂和活性组分，具有优异的热结构稳定性、催化效率和化学选择性。了解CeO2的表面性质及其界面上发生的化学反应，对于合理设计各种反应的非均相催化剂具有重要意义。总的来说，CeO2的可逆Ce3+/Ce4+氧化还原对和表面酸碱性质决定了CeO2优异的内在催化能力，从而在许多反应中产生增强的催化现象。特别是，纳米结构的CeO2具有大量的表面结合缺陷，这些缺陷主要是氧空位，作为表面活性催化位点。因此，人们通过各种合成策略和后处理来控制CeO2的表面缺陷和性能。本文综述了近年来在调控氧化铈表面结构和组成及其催化应用方面的研究进展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Surface Science Reports 化学-物理：凝聚态物理

CiteScore

15.90

自引率

2.00%

发文量

审稿时长

178 days

期刊介绍： Surface Science Reports is a journal that specializes in invited review papers on experimental and theoretical studies in the physics, chemistry, and pioneering applications of surfaces, interfaces, and nanostructures. The topics covered in the journal aim to contribute to a better understanding of the fundamental phenomena that occur on surfaces and interfaces, as well as the application of this knowledge to the development of materials, processes, and devices. In this journal, the term "surfaces" encompasses all interfaces between solids, liquids, polymers, biomaterials, nanostructures, soft matter, gases, and vacuum. Additionally, the journal includes reviews of experimental techniques and methods used to characterize surfaces and surface processes, such as those based on the interactions of photons, electrons, and ions with surfaces.