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Synthesis of core@shell catalysts guided by Tammann temperature

Pei Xiong, Zhihang Xu, Tai‐Sing Wu, Tong Yang, Qiong Lei, Jiangtong Li, Guangchao Li, Ming Yang, Y. L. Soo, Robert D. Bennett, Shu Ping Lau, Shik Chi Edman Tsang, Ye Zhu, Molly Meng‐Jung Li

2024Nature Communications35 citationsDOIOpen Access PDF

Abstract

Abstract Designing high-performance thermal catalysts with stable catalytic sites is an important challenge. Conventional wisdom holds that strong metal-support interactions can benefit the catalyst performance, but there is a knowledge gap in generalizing this effect across different metals. Here, we have successfully developed a generalizable strong metal-support interaction strategy guided by Tammann temperatures of materials, enabling functional oxide encapsulation of transition metal nanocatalysts. As an illustrative example, Co@BaAl 2 O 4 core@shell is synthesized and tracked in real-time through in-situ microscopy and spectroscopy, revealing an unconventional strong metal-support interaction encapsulation mechanism. Notably, Co@BaAl 2 O 4 exhibits exceptional activity relative to previously reported core@shell catalysts, displaying excellent long-term stability during high-temperature chemical reactions and overcoming the durability and reusability limitations of conventional supported catalysts. This pioneering design and widely applicable approach has been validated to guide the encapsulation of various transition metal nanoparticles for environmental tolerance functionalities, offering great potential to advance energy, catalysis, and environmental fields.

Topics & Concepts

Nanomaterial-based catalystCatalysisMaterials scienceReusabilityNanotechnologyEncapsulation (networking)NanoparticleOxideTransition metalMetalChemical engineeringComputer scienceChemistryMetallurgyComputer networkProgramming languageBiochemistrySoftwareEngineeringCatalytic Processes in Materials ScienceNanomaterials for catalytic reactionsElectrocatalysts for Energy Conversion
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