利用光电子光离子符合光谱揭示Pt和CeO在无溶剂酰胺加氢反应中的作用。

Unveiling the Roles of Pt and CeO during Solvent-Free Amide Hydrogenation Utilizing Photoelectron Photoionization Coincidence Spectroscopy.

作者信息

Wu Xinbang, Somerville Rosie J, Bodi Andras, Turnell-Ritson Roland C, Zhang Zihao, Romano-deGea Jan, Schmidt Jaques-Christopher, Hemberger Patrick, Dyson Paul J

机构信息

Institute of Chemical Sciences and Engineering, École Polytechnique Fédérale de Lausanne(EPFL), Lausanne 1015, Switzerland.

Laboratory of Synchrotron Radiation and Femtochemistry, Paul Scherrer Institute, Villigen 5232, Switzerland.

出版信息

ACS Catal. 2025 Apr 2;15(8):6216-6225. doi: 10.1021/acscatal.4c07955. eCollection 2025 Apr 18.

DOI:10.1021/acscatal.4c07955

PMID:40270887

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12012760/

Abstract

The hydrogenation of amides to amines is an important reaction in the synthesis of building blocks in organic chemistry. However, the solvent-free hydrogenation of amides (requiring heterogeneous catalysts and high reaction temperatures) is challenging, with low selectivity obtained due to further hydrogenolysis of the alcohol and amine products. Such behavior was observed for a CeO-supported Pt catalyst (Pt/CeO). Although it is known that the support promotes the adsorption of the amide on the catalyst, and Pt facilitates hydrogenation, their individual roles in amide conversion and how they impact product selectivity remain unclear. Using photoelectron photoionization coincidence (PEPICO) spectroscopy, the conversion of -ethylpropionamide was studied over both Pt/CeO and CeO. The experiments reveal that Pt is active for amide hydrogenation below 150 °C to produce amines with high selectivity. The Lewis acidic support (CeO) is also active at higher temperatures, producing ethylamine and propanal, while being vulnerable to coking. Although Pt nanoparticles mitigate coke formation, they also catalyze the hydrogenolysis of the amine products above 150 °C. This study provides insights on bifunctional metal oxide--metal nanoparticle catalysts in amide hydrogenation to facilitate the design of superior catalysts.

摘要

酰胺加氢制胺是有机化学中合成结构单元的重要反应。然而，酰胺的无溶剂加氢（需要多相催化剂和较高的反应温度）具有挑战性，由于醇和胺产物的进一步氢解，选择性较低。在负载于CeO的Pt催化剂（Pt/CeO）上观察到了这种行为。虽然已知载体促进酰胺在催化剂上的吸附，且Pt有助于加氢，但它们在酰胺转化中的各自作用以及对产物选择性的影响仍不清楚。利用光电子光离子符合（PEPICO）光谱，研究了在Pt/CeO和CeO上α-乙基丙酰胺的转化。实验表明，Pt在150℃以下对酰胺加氢具有活性，能以高选择性生成胺。路易斯酸性载体（CeO）在较高温度下也具有活性，生成乙胺和丙醛，但易结焦。虽然Pt纳米颗粒可减轻结焦，但它们也会催化150℃以上胺产物的氢解。本研究为酰胺加氢中的双功能金属氧化物-金属纳米颗粒催化剂提供了见解，以促进优良催化剂的设计。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2cd2/12012760/66953383a9f4/cs4c07955_0006.jpg

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利用光电子光离子符合光谱揭示Pt和CeO在无溶剂酰胺加氢反应中的作用。

Unveiling the Roles of Pt and CeO during Solvent-Free Amide Hydrogenation Utilizing Photoelectron Photoionization Coincidence Spectroscopy.

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