通过高熵氧化物策略对二氧化铈纳米晶体进行缺陷工程以增强催化性能

Defect Engineering of Ceria Nanocrystals for Enhanced Catalysis via a High-Entropy Oxide Strategy.

作者信息

Sun Yifan, Wu Tao, Bao Zhenghong, Moon Jisue, Huang Zhennan, Chen Zitao, Chen Hao, Li Meijia, Yang Zhenzhen, Chi Miaofang, Toops Todd J, Wu Zili, Jiang De-En, Liu Jue, Dai Sheng

机构信息

Chemical Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, United States.

Frontiers Science Center for Transformative Molecules, School of Chemistry and Chemical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China.

出版信息

ACS Cent Sci. 2022 Aug 24;8(8):1081-1090. doi: 10.1021/acscentsci.2c00340. Epub 2022 Jun 16.

DOI:10.1021/acscentsci.2c00340

PMID:36032771

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9413438/

Abstract

Introducing transition-metal components to ceria (CeO) is important to tailor the surface redox properties for a broad scope of applications. The emergence of high-entropy oxides (HEOs) has brought transformative opportunities for oxygen defect engineering in ceria yet has been hindered by the difficulty in controllably introducing transition metals to the bulk lattice of ceria. Here, we report the fabrication of ceria-based nanocrystals with surface-confined atomic HEO layers for enhanced catalysis. The increased covalency of the transition-metal-oxygen bonds at the HEO-CeO interface promotes the formation of surface oxygen vacancies, enabling efficient oxygen activation and replenishment for enhanced CO oxidation capabilities. Understanding the structural heterogeneity involving bulk and surface oxygen defects in nanostructured HEOs provides useful insights into rational design of atomically precise metal oxides, whose increased compositional and structural complexities give rise to expanded functionalities.

摘要

将过渡金属组分引入二氧化铈（CeO）对于调整其表面氧化还原性质以实现广泛应用至关重要。高熵氧化物（HEOs）的出现为二氧化铈中的氧缺陷工程带来了变革性机遇，但由于难以将过渡金属可控地引入二氧化铈的体相晶格中，这一机遇受到了阻碍。在此，我们报道了具有表面受限原子HEO层的二氧化铈基纳米晶体的制备，以增强催化作用。HEO-CeO界面处过渡金属-氧键的共价性增加促进了表面氧空位的形成，从而实现高效的氧活化和补充，增强了CO氧化能力。理解纳米结构HEOs中涉及体相和表面氧缺陷的结构异质性，为合理设计原子精确的金属氧化物提供了有用的见解，其增加的组成和结构复杂性带来了扩展的功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a51b/9413438/3248b0ced5eb/oc2c00340_0001.jpg

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通过高熵氧化物策略对二氧化铈纳米晶体进行缺陷工程以增强催化性能

Defect Engineering of Ceria Nanocrystals for Enhanced Catalysis via a High-Entropy Oxide Strategy.

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