Nuclear Spin Relaxation of Longitudinal and Singlet Order in Liquid-CO2 Solutions

Aliki Moysiadi; Francesco Giustiniano; Andrew M R Hall; Topaz A A Cartlidge; Lynda J Brown; Giuseppe Pileio

doi:10.3389/fchem.2021.668044

Nuclear Spin Relaxation of Longitudinal and Singlet Order in Liquid-CO₂ Solutions

Front Chem. 2021 Apr 26:9:668044. doi: 10.3389/fchem.2021.668044. eCollection 2021.

Authors

Aliki Moysiadi¹, Francesco Giustiniano¹, Andrew M R Hall¹, Topaz A A Cartlidge¹, Lynda J Brown¹, Giuseppe Pileio¹

Affiliation

¹ School of Chemistry, University of Southampton, Southampton, United Kingdom.

Abstract

Hyperpolarization techniques can enormously enhance the NMR signal thus allowing the exploitation of hyperpolarized substrates for in-vivo MRI applications. The short lifetime of hyperpolarized spin order poses significant limitations in such applications. Spin order storage can be prolonged through the use of long-lived spin states. Additionally, the storage of spin polarization-either in the form of longitudinal or singlet order-can be prolonged in low viscosity solutions. Here, we report the use of low viscosity liquid-CO₂ solutions to store nuclear spin polarization in the form of longitudinal and singlet order for extended periods. Our results demonstrate that this storage time can be considerably sustained in liquid-CO₂ solutions in comparison to other low viscosity solvents, opening up the possibility of new, exciting storage experiments in the future.

Keywords: liquid-CO2; long-lived spin states; nuclear magnetic resonance; nuclear spin relaxation; singlet spin order.