4.8 Article

Understanding Heterogeneous Catalytic Hydrogenation by Parahydrogen-Induced Polarization NMR Spectroscopy

期刊

ACS CATALYSIS
卷 13, 期 6, 页码 3501-3519

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acscatal.2c05659

关键词

parahydrogen-induced polarization; heterogeneous hydrogenation; NMR; catalyst; reaction mechanism

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Parahydrogen-induced polarization (PHIP) is a technique that can increase the NMR sensitivity by several orders. It is a powerful tool to characterize catalyst properties and elucidate reaction mechanisms. In this Perspective, the heterogeneous PHIP (HET-PHIP) technique and its application in catalytic hydrogenation are comprehensively reviewed. The fundamentals of HET-PHIP are introduced and its ability to provide information about catalyst morphology and electronic properties is discussed. The mechanistic understanding of catalytic hydrogenations using HET-PHIP is also discussed.
Parahydrogen-induced polarization (PHIP) is an NMR hyperpolarization technique with the ability to increase the NMR sensitivity by serval orders. The generation of hyperpolarization in hydrogenation reactions is associated with a pairwise addition behavior, which is sensitive to the properties of catalysts and the reaction process, making it a powerful tool for the characterization of catalyst properties and elucidation of reaction mechanisms. In this Perspective, we provide an in-depth overview of the heterogeneous PHIP (HET-PHIP) technique and its application in heterogeneous catalytic hydrogenation. The fundamentals of HET-PHIP are introduced. We describe how HET-PHIP can be used to obtain information about the morphology and electronic properties of supported monometallic catalysts, bimetallic catalysts, and zeolites as well as the facet effect and strong metal-support interaction (SMSI) effect in hydrogenation. Advances in the mechanistic understanding of catalytic hydrogenations by using HET-PHIP are discussed with representative work. We propose the current limitations and prospects of the HET-PHIP technique in catalytic hydrogenation reactions.

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