Pei Che Soon scite author profile

Nuclear magnetic resonance (NMR) spectroscopy and magnetic resonance imaging (MRI) have become important techniques in many research areas. One major limitation is the relatively low sensitivity of these methods, which recently has been addressed by hyperpolarization. However, once hyperpolarization is imparted on a molecule, the magnetization typically decays within relatively short times. Singlet states are well isolated from the environment, such that they acquire long lifetimes. We describe herein a model reaction for read-out of a hyperpolarized long-lived state in dimethyl maleate using thiol conjugate addition. This type of reaction could lend itself to monitoring oxidative stress or hypoxia by sensitive detection of thiols. Similar reactions could be used in biosensors or assays that exploit molecular switching. Singlet lifetimes of about 4.7 min for (1)H spins in [D4]MeOH are seen in this system.

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Limits in Proton Nuclear Singlet‐State Lifetimes Measured with para‐Hydrogen‐Induced Polarization

Zhang

Duan

Soon

et al. 2016

ChemPhysChem

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The synthesis of a hyperpolarized molecule was developed, where the polarization and the singlet state were preserved over two controlled chemical steps. Nuclear singlet-state lifetimes close to 6 min for protons are reported in dimethyl fumarate. Owing to the high symmetry (AA'X X ' and A systems), the singlet-state readout requires either a chemical desymmetrization or a long and repeated spin lock. Using DFT calculations and relaxation models, we further determine nuclear spin singlet lifetime limiting factors, which include the intramolecular dipolar coupling mechanism (proton-proton and proton-deuterium), the chemical shift anisotropy mechanism (symmetric and antisymmetric), and the intermolecular dipolar coupling mechanism (to oxygen and deuterium). If the limit of paramagnetic relaxation caused by residual oxygen could be lifted, the intramolecular dipolar coupling to deuterium would become the limiting relaxation mechanism and proton lifetimes upwards of 26 min could become available in the molecules considered here (dimethyl maleate and dimethyl fumarate).

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Hyperpolarization of amino acid precursors to neurotransmitters with parahydrogen induced polarization

Soon

Zhang

et al. 2013

Chem. Commun.

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Long‐Lived ¹H Nuclear Spin Singlet in Dimethyl Maleate Revealed by Addition of Thiols

et al. 2014

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Pei Che Soon

Long‐Lived ¹H Nuclear Spin Singlet in Dimethyl Maleate Revealed by Addition of Thiols

Limits in Proton Nuclear Singlet‐State Lifetimes Measured with para‐Hydrogen‐Induced Polarization

Hyperpolarization of amino acid precursors to neurotransmitters with parahydrogen induced polarization

Long‐Lived ¹H Nuclear Spin Singlet in Dimethyl Maleate Revealed by Addition of Thiols

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Pei Che Soon

Long‐Lived 1H Nuclear Spin Singlet in Dimethyl Maleate Revealed by Addition of Thiols

Limits in Proton Nuclear Singlet‐State Lifetimes Measured with para‐Hydrogen‐Induced Polarization

Hyperpolarization of amino acid precursors to neurotransmitters with parahydrogen induced polarization

Long‐Lived 1H Nuclear Spin Singlet in Dimethyl Maleate Revealed by Addition of Thiols

Contact Info

Product

Resources

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Long‐Lived ¹H Nuclear Spin Singlet in Dimethyl Maleate Revealed by Addition of Thiols

Long‐Lived ¹H Nuclear Spin Singlet in Dimethyl Maleate Revealed by Addition of Thiols