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Obstructed Surface States as the Descriptor for Predicting Catalytic Active Sites in Inorganic Crystalline Materials

Guowei Li, Yuanfeng Xu, Zhida Song, Qun Yang, Yudi Zhang, Jian Liu, Uttam Gupta, Vicky Süβ, Yan Sun, Paolo Sessi, S. Parkin, B. Andrei Bernevig, Claudia Felser

2022Advanced Materials60 citationsDOIOpen Access PDF

Abstract

Abstract The discovery of new catalysts that are efficient and sustainable is a major research endeavor for many industrial chemical processes. This requires an understanding and determination of the catalytic origins, which remains a challenge. Here, a novel method to identify the position of active sites based on searching for crystalline symmetry‐protected obstructed atomic insulators (OAIs) that have metallic surface states is described. The obstructed Wannier charge centers (OWCCs) in OAIs are pinned by symmetries at some empty Wyckoff positions so that surfaces that accommodate these sites are guaranteed to have metallic obstructed surface states (OSSs). It is proposed and confirmed that the OSSs are the catalytic activity origins for crystalline materials. The theory on 2H‐MoTe 2 , 1T′‐MoTe 2 , and NiPS 3 bulk single crystals is verified, whose active sites are consistent with the calculations. Most importantly, several high‐efficiency catalysts are successfully identified just by considering the number of OWCCs and the symmetry. Using the real‐space‐invariant theory applied to a database of 34 013 topologically trivial insulators, 1788 unique OAIs are identified, of which 465 are potential high‐performance catalysts. The new methodology will facilitate and accelerate the discovery of new catalysts for a wide range of heterogeneous redox reactions.

Topics & Concepts

CatalysisMaterials scienceInvariant (physics)Chemical physicsRedoxWannier functionMetalNanotechnologyCondensed matter physicsPhysicsChemistryQuantum mechanicsMetallurgyOrganic chemistryMachine Learning in Materials ScienceElectrocatalysts for Energy ConversionAdvanced Chemical Physics Studies