Lighting up spin systems: enhancing characteristic 1H signal patterns of fluorinated molecules

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Abstract

Fluorine is becoming increasingly prevalent in medicinal chemistry, both in drug molecules and in molecular probes. The presence of fluorine allows convenient monitoring of such molecules in complex environments by NMR spectroscopy. However, sensitivity is a persistent limitation of NMR, especially when molecules are present at low concentrations. Here, sensitivity issues with 1H NMR are mitigated by sharing 19F photochemically-induced dynamic nuclear polarisation with 1H nuclei. Unlike direct 1H enhancement, this method enhances 1H signals without significantly distorting multiplet intensities, and has the potential to enable the use of suitable molecules as low-concentration probes.

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Smith, M. J., Bramham, J. E., Nilsson, M., Morris, G. A., Castañar, L., & Golovanov, A. P. (2023). Lighting up spin systems: enhancing characteristic 1H signal patterns of fluorinated molecules. Chemical Communications, 59(78), 11692–11695. https://doi.org/10.1039/d3cc03557c

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