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Light-Induced <sup>1</sup>H NMR Hyperpolarization in Solids at 9.4 and 21.1 T

Federico De Biasi, Ganesan Karthikeyan, Máté Visegrádi, Marcel Levien, Michael A. Hope, P. Brown, Michael R. Wasielewski, Olivier Ouari, Lyndon Emsley

2024Journal of the American Chemical Society14 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The inherently low sensitivity of nuclear magnetic resonance (NMR) spectroscopy is the major limiting factor for its application to elucidate structure and dynamics in solids. In the solid state, nuclear spin hyperpolarization methods based on microwave-induced dynamic nuclear polarization (DNP) provide a versatile platform to enhance the bulk NMR signal of many different sample formulations, leading to significant sensitivity improvements. Here we show that 1 H NMR hyperpolarization can also be generated in solids at high magnetic fields by optical irradiation of the sample. We achieved this by exploiting a donor–chromophore–acceptor molecule with an excited state electron–electron interaction similar to the nuclear Larmor frequency, enabling solid-state 1 H photochemically induced DNP (photo-CIDNP) at high magnetic fields. Through hyperpolarization relay, we obtained bulk NMR signal enhancements ε H by factors of ∼100 at both 9.4 and 21.1 T for the 1 H signal of o -terphenyl in magic angle spinning (MAS) NMR experiments at 100 K. These findings open a pathway toward a general light-induced hyperpolarization approach for dye-sensitized high-field NMR in solids.

Topics & Concepts

Hyperpolarization (physics)ChemistrySolid-state nuclear magnetic resonanceNuclear magnetic resonance spectroscopyExcited stateLarmor precessionChromophoreNuclear magnetic resonanceCIDNPPolarization (electrochemistry)Magnetic fieldPhotochemistryAtomic physicsPhysical chemistryStereochemistryPhysicsQuantum mechanicsAdvanced NMR Techniques and ApplicationsSolid-state spectroscopy and crystallographyElectron Spin Resonance Studies
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