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Analysis of Complex Mixtures by Chemosensing NMR Using <i>para</i>-Hydrogen-Induced Hyperpolarization

Roan Fraser, Floris P. J. T. Rutjes, Martin C. Feiters, Marco Tessari

2022Accounts of Chemical Research33 citationsDOIOpen Access PDF

Abstract

H spectrum (at ca. -20 ppm) that is generally signal-free. The enhanced sensitivity provided by non-hydrogenative PHIP (nhPHIP), together with the absence of interference from the complex matrix (usually resonating between 0 and 10 ppm), set the detection limit for this NMR chemosensor down to sub-μM concentrations, approximately 3 orders of magnitude lower than for conventional NMR. This nhPHIP approach represents, therefore, a powerful tool for NMR analysis of dilute substrates in complex mixtures as it addresses at once the issues of signal crowding and NMR sensitivity. Importantly, being performed at high field inside the NMR spectrometer, the method allows for rapid acquisition of multiple scans, multidimensional hyperpolarized NMR spectra, in a fashion comparable to that of standard NMR measurements.In this Account, we focus on our chemosensing NMR technology, detailing its principles, advantages, and limitations and presenting a number of applications to real systems such as biofluids, beverages, and natural extracts.

Topics & Concepts

Hyperpolarization (physics)ChemistryHydrogenSpin isomers of hydrogenNuclear magnetic resonanceNuclear magnetic resonance spectroscopyStereochemistryOrganic chemistryPhysicsAdvanced NMR Techniques and ApplicationsSolid-state spectroscopy and crystallographyNMR spectroscopy and applications
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