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The Role of Adsorbed Species in 1-Butene Isomerization: Parahydrogen-Induced Polarization NMR of Pd–Au Catalyzed Butadiene Hydrogenation

Weiyu Wang, Richard J. Lewis, Bintian Lu, Qiang Wang, Graham J. Hutchings, Jun Xu, Feng Deng

2024ACS Catalysis10 citationsDOIOpen Access PDF

Abstract

Isomerization of 1-butene critically influences product distributions in 1,3-butadiene hydrogenation. However, distinguishing between the isomerization and hydrogenation pathways is challenging. Here, we employ parahydrogen-induced polarization (PHIP) NMR spectroscopy to determine the extent of the isomerization pathway when using Pd–Au bimetallic nanoparticles synthesized via a colloidal protocol in the presence or absence of a polyvinylpyrrolidone (PVP) stabilizing ligand and immobilized on TiO 2 . Residual additives, in particular, sulfur, are observed to considerably influence the pairwise hydrogenation and 1-butene isomerization pathways. PHIP NMR analysis reveals that the PVP ligand can induce strong polarized signals, likely due to restricted proton migration, but minimally impact 1-butene isomerization. In contrast, removing surface sulfur species introduced during catalyst synthesis profoundly enhances 1-butene isomerization by reducing the hydrogen concentration at the nanoparticle surface. This work elucidates how residual species can modulate key reaction pathways such as isomerization during 1,3-butadiene hydrogenation, with implications for rational catalyst design.

Topics & Concepts

IsomerizationCatalysisPhotochemistryChemistry1-ButeneBimetallic stripOrganic chemistryAdvanced NMR Techniques and ApplicationsAdvanced Condensed Matter PhysicsHydrogen Storage and Materials
The Role of Adsorbed Species in 1-Butene Isomerization: Parahydrogen-Induced Polarization NMR of Pd–Au Catalyzed Butadiene Hydrogenation | Litcius