作为二氧化碳利用中的溶出催化剂的透镜型氧化物

Encyclopedia Pub Date : 2023-11-23 DOI:10.3390/encyclopedia3040104

T. Ruh, F. Schrenk, T. Berger, Christoph Rameshan

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摘要

透镜型氧化物（ABO3）是一类用途非常广泛的材料。它们在组成上非常灵活，因为其成分可以从元素周期表中的各种元素中选择，并有大量可能的组合。这种灵活性使人们能够通过掺杂基底结构的 A 位和/或 B 位来调整材料的特性，从而促进了以应用为导向的材料设计。在还原条件下发生外溶解的能力使包晶型氧化物特别适合催化应用。外溶解是一个过程，在此过程中，B-位元素迁移到材料表面，在那里形成锚定和精细分散的纳米颗粒，这对获得良好的催化性能至关重要，而透辉石基则提供了稳定的支撑。最近，外溶解催化剂作为二氧化碳利用反应（如逆向水-气变换反应或甲烷干重整）的可能材料进行了研究。

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Perovskite-Type Oxides as Exsolution Catalysts in CO2 Utilization

Perovskite-type oxides (ABO3) are a highly versatile class of materials. They are compositionally flexible, as their constituents can be chosen from a wide range of elements across the periodic table with a vast number of possible combinations. This flexibility enables the tuning of the materials’ properties by doping the A- and/or B-sites of the base structure, facilitating the application-oriented design of materials. The ability to undergo exsolution under reductive conditions makes perovskite-type oxides particularly well-suited for catalytic applications. Exsolution is a process during which B-site elements migrate to the surface of the material where they form anchored and finely dispersed nanoparticles that are crucially important for obtaining a good catalytic performance, while the perovskite base provides a stable support. Recently, exsolution catalysts have been investigated as possible materials for CO2 utilization reactions like reverse water–gas shift reactions or methane dry reforming.

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