多相催化：在相边界上的最佳性能？

IF 17.3 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Matter Pub Date : 2025-06-23 DOI:10.1016/j.matt.2025.102209

Anastassia N. Alexandrova, Phillip Christopher

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引用次数: 0

摘要

大多数工业上使用的多相催化剂都是通过反复试验发现的，尽管有几十年的经验，但发现新的催化剂仍然是极具挑战性的。揭示催化剂设计指导原则的动力比以往任何时候都更加存在。我们分享了一系列的观察结果，表明最佳催化剂通常在反应条件下获得的特征相边界（例如，吸附质覆盖，催化剂结构等的突变）上起作用。催化剂利用了相关的不稳定性——同时以多种状态存在的愿望——作为化学转化的驱动力。换句话说，相边界是开始寻找催化剂的好地方，事实上，我们应该同时关注至少两个相，而不是一个。我们用几项结合统计歌剧模型和实验的研究证实了这一说法。从这些观察中产生的是迄今为止尚未认识到的催化剂发现载体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Heterogeneous catalysis: Optimal performance at a phase boundary?

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Heterogeneous catalysis: Optimal performance at a phase boundary?

Most of the industrially used heterogeneous catalysts have been discovered by trial and error, and despite decades of experience, the discovery of new catalysts continues to be extremely challenging. The drive to uncover guiding principles in catalyst design is more present than ever. We share a series of observations indicating that optimal catalysts typically function at characteristic phase boundaries (e.g., abrupt changes in adsorbate coverage, catalyst structure, etc.) accessed in the reaction conditions. The catalyst exploits the associated instability—the desire to exist in multiple states simultaneously—as a driving force for chemical transformations. In other words, phase boundaries are good places to start the catalyst search, and indeed, we should focus on at least two phases at once rather than just one. We substantiate this claim with several studies that combine statistical operando modeling and experiments. Transpiring from these observations is a hitherto unrecognized vector in catalyst discovery.

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来源期刊

Matter MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

26.30

自引率

2.60%

发文量

367

期刊介绍： Matter, a monthly journal affiliated with Cell, spans the broad field of materials science from nano to macro levels,covering fundamentals to applications. Embracing groundbreaking technologies,it includes full-length research articles,reviews, perspectives,previews, opinions, personnel stories, and general editorial content. Matter aims to be the primary resource for researchers in academia and industry, inspiring the next generation of materials scientists.