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Relayed hyperpolarization for zero-field nuclear magnetic resonance.


ABSTRACT: Zero- to ultralow-field nuclear magnetic resonance (ZULF NMR) is a rapidly developing form of spectroscopy that provides rich spectroscopic information in the absence of large magnetic fields. However, signal acquisition still requires a mechanism for generating a bulk magnetic moment for detection, and the currently used methods only apply to a limited pool of chemicals or come at prohibitively high cost. We demonstrate that the parahydrogen-based SABRE (signal amplification by reversible exchange)-Relay method can be used as a more general means of generating hyperpolarized analytes for ZULF NMR by observing zero-field J-spectra of [13C]-methanol, [1-13C]-ethanol, and [2-13C]-ethanol in both 13C-isotopically enriched and natural abundance samples. We explore the magnetic field dependence of the SABRE-Relay efficiency and show the existence of a second maximum at 19.0 ± 0.3 mT. Despite presence of water, SABRE-Relay is used to hyperpolarize ethanol extracted from a store-bought sample of vodka (%PH ~ 0.1%).

SUBMITTER: Van Dyke ET 

PROVIDER: S-EPMC9299534 | biostudies-literature | 2022 Jul

REPOSITORIES: biostudies-literature

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Relayed hyperpolarization for zero-field nuclear magnetic resonance.

Van Dyke Erik T ET   Eills James J   Picazo-Frutos Román R   Sheberstov Kirill F KF   Hu Yinan Y   Budker Dmitry D   Barskiy Danila A DA  

Science advances 20220720 29


Zero- to ultralow-field nuclear magnetic resonance (ZULF NMR) is a rapidly developing form of spectroscopy that provides rich spectroscopic information in the absence of large magnetic fields. However, signal acquisition still requires a mechanism for generating a bulk magnetic moment for detection, and the currently used methods only apply to a limited pool of chemicals or come at prohibitively high cost. We demonstrate that the parahydrogen-based SABRE (signal amplification by reversible excha  ...[more]

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