Benzoquinone Enhances Hyperpolarization of Surface Alcohols with Para-Hydrogen

Philip L. Norcott

doi:10.1021/jacs.3c01593

Benzoquinone Enhances Hyperpolarization of Surface Alcohols with Para-Hydrogen

Philip L. Norcott

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

20 Downloads (Pure)

Abstract

The nuclear singlet state of H₂, para-hydrogen, can be used to increase the measurable signal-to-noise for magnetic resonance techniques─a form of hyperpolarization. Transfer of this polarization from para-hydrogen to alcohols through surface interactions rather than formal hydrogenation has only been demonstrated on heterogeneous catalysts tailored to minimize loss of spin order. Here, we find that a common platinum-on-carbon catalyst is capable of this interaction and that the addition of a benzoquinone significantly increases the signal output of hyperpolarized methanol or water.

Original language	English
Pages (from-to)	9970-9975
Number of pages	6
Journal	Journal of the American Chemical Society
Volume	145
Issue number	18
DOIs	https://doi.org/10.1021/jacs.3c01593
Publication status	Published - 10 May 2023
Externally published	Yes

Keywords

Benzoquinone
hyperpolarization
surface alcohols
para-hydrogen
nuclear singlet state
H2, para-hydrogen
magnetic resonance
spin order

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10.1021/jacs.3c01593Licence: CC BY-NC-ND

Published versionFinal published version, 2.76 MBLicence: CC BY-NC-ND

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abstract = "The nuclear singlet state of H2, para-hydrogen, can be used to increase the measurable signal-to-noise for magnetic resonance techniques─a form of hyperpolarization. Transfer of this polarization from para-hydrogen to alcohols through surface interactions rather than formal hydrogenation has only been demonstrated on heterogeneous catalysts tailored to minimize loss of spin order. Here, we find that a common platinum-on-carbon catalyst is capable of this interaction and that the addition of a benzoquinone significantly increases the signal output of hyperpolarized methanol or water.",

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N2 - The nuclear singlet state of H2, para-hydrogen, can be used to increase the measurable signal-to-noise for magnetic resonance techniques─a form of hyperpolarization. Transfer of this polarization from para-hydrogen to alcohols through surface interactions rather than formal hydrogenation has only been demonstrated on heterogeneous catalysts tailored to minimize loss of spin order. Here, we find that a common platinum-on-carbon catalyst is capable of this interaction and that the addition of a benzoquinone significantly increases the signal output of hyperpolarized methanol or water.

AB - The nuclear singlet state of H2, para-hydrogen, can be used to increase the measurable signal-to-noise for magnetic resonance techniques─a form of hyperpolarization. Transfer of this polarization from para-hydrogen to alcohols through surface interactions rather than formal hydrogenation has only been demonstrated on heterogeneous catalysts tailored to minimize loss of spin order. Here, we find that a common platinum-on-carbon catalyst is capable of this interaction and that the addition of a benzoquinone significantly increases the signal output of hyperpolarized methanol or water.

KW - Benzoquinone

KW - hyperpolarization

KW - surface alcohols

KW - para-hydrogen

KW - nuclear singlet state

KW - H2, para-hydrogen

KW - magnetic resonance

KW - spin order

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JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 18

ER -

Benzoquinone Enhances Hyperpolarization of Surface Alcohols with Para-Hydrogen

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