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Determining the enantioselectivity of asymmetric hydrogenation through parahydrogen-induced hyperpolarization

Wenlong Jiang, Qiwei Peng, Huijun Sun, Qi Zhang, Chengda Huang, Shuo‐Hui Cao, Xinchang Wang, Zhong Chen

2021The Journal of Chemical Physics11 citationsDOI

Abstract

Asymmetric hydrogenation plays an essential role for both academic research and industry to produce enantiomeric pure chiral molecules. Although nuclear magnetic resonance (NMR) is powerful in determining the yields of hydrogenation, it is still challenging to use NMR for chirality-related analysis. Herein, we applied parahydrogen-induced hyperpolarization (PHIP) NMR to determine the enantioselectivity of asymmetric hydrogenation and the absolute chirality of products. We hyperpolarized two types of unsaturated amino acid precursors, i.e., methyl-α-acetoamido cinnamate and (E)-ethyl 3-acetamidobut-2-enoate. Hydrogenation of prochiral substrates with parahydrogen gave temporary hyperpolarized diastereoisomers, which exhibit different PHIP patterns distinguishable in 1H NMR. After assigning the NMR peaks by density functional theory calculations, we simulated the PHIP patterns of all the possible temporary hyperpolarized diastereoisomers and unambiguously assigned the chirality of the products and the enantioselectivity of asymmetric hydrogenation. Our work demonstrates the application and potential of PHIP in revealing the mechanism of asymmetric hydrogenation.

Topics & Concepts

Spin isomers of hydrogenDiastereomerAsymmetric hydrogenationChirality (physics)ChemistryEnantiomerHyperpolarization (physics)Density functional theoryNuclear magnetic resonance spectroscopyStereoisomerismStereochemistryComputational chemistryEnantioselective synthesisMoleculeOrganic chemistryCatalysisHydrogenChiral symmetry breakingNambu–Jona-Lasinio modelQuarkQuantum mechanicsPhysicsAdvanced NMR Techniques and ApplicationsSolid-state spectroscopy and crystallographyAtomic and Subatomic Physics Research
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