A review on transition metal oxides in catalysis

Frontiers in Chemistry Pub Date : 2024-05-17 DOI:10.3389/fchem.2024.1374878

Sanjubala Sahoo, Kaveendra Y. Wickramathilaka, Elsa Njeri, Dilshan Silva, Steven L. Suib

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Abstract

Transition Metal Oxides (TMOs) have drawn significant attention due to their diverse range of properties and applications. The partially filled d orbitals of the transition metal ions, with highly electronegative oxygen atoms, give rise to unique electronic structures that lead to multiple applications due to their magnetic, optical, and structural properties. These properties have a direct influence on chemical reactions that enable tailoring materials for specific applications in catalysis, such as electrocatalysis and photocatalysis. While the potential of TMOs is promising, their development for enhanced functional properties poses numerous challenges. Among these challenges, identifying the appropriate synthesis processes and employing optimal characterization techniques are crucial. In this comprehensive review, an overview of recent trends and challenges in the synthesis and characterization of highly functional TMOs as well as ceramics will be covered with emphasis on catalytic applications. Mesoporous materials play a key role in augmenting their functionality for various applications and will be covered. Ab-initio modeling aspects for the design and development of novel TMO will be also discussed.

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催化中的过渡金属氧化物综述

过渡金属氧化物（TMO）因其多种多样的特性和应用而备受关注。过渡金属离子的部分填满 d 轨道与高电负性氧原子形成了独特的电子结构，由于其磁性、光学和结构特性，可用于多种领域。这些特性对化学反应有着直接的影响，可使材料适合电催化和光催化等催化领域的特定应用。尽管 TMOs 的发展潜力巨大，但要开发出具有更强功能特性的 TMOs 还面临诸多挑战。在这些挑战中，确定合适的合成工艺和采用最佳的表征技术至关重要。本综述将概述高功能 TMOs 以及陶瓷合成和表征方面的最新趋势和挑战，重点关注催化应用。介孔材料在增强各种应用的功能性方面发挥着关键作用，本综述也将涉及介孔材料。此外，还将讨论设计和开发新型 TMO 的 Ab-initio 建模问题。

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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Frontiers in Chemistry

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