Cocrystalline Matrices for Hyperpolarization at Room Temperature Using Photoexcited Electrons.

Munehiro InukaiHaruki SatoKoichiro MiyanishiMakoto NegoroAkinori Kagawa Yuta Hori Yasuteru Shigeta Takuya KuriharaKoichi Nakamura

Published in: Journal of the American Chemical Society (2024)

We propose using cocrystals as effective polarization matrices for triplet dynamic nuclear polarization (DNP) at room temperature. The polarization source can be uniformly doped into cocrystals formed through acid-acid, amide-amide, and acid-amide synthons. The dense-packing crystal structures, facilitated by multiple hydrogen bonding and π-π interactions, result in extended T 1 relaxation times, enabling efficient polarization diffusion within the crystals. Our study demonstrates the successful polarization of a DNP-magnetic resonance imaging molecular probe, such as urea, within a cocrystal matrix at room temperature using triplet-DNP.

Keyphrases

room temperature
ionic liquid
magnetic resonance imaging
quantum dots
computed tomography
single molecule
magnetic resonance
living cells
energy transfer
contrast enhanced
metal organic framework