Determination of molecular hydration in solution via changes in magnetic anisotropy

Marcus J. Giansiracusa; Michele Vonci; Yasmin L. Whyatt; Carys Williams; Kevin Mason; David Parker; Eric J.L. McInnes; Nicholas F. Chilton

Journal ArticleOPEN ACCESS

Determination of molecular hydration in solution via changes in magnetic anisotropy

Giansiracusa M
Vonci M
Whyatt Y
et al.

Chemical Communications (2023) 59(30) 4531-4534

DOI: 10.1039/d3cc00601h

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Abstract

The hydration behaviour of coordination complexes is important for understanding their roles as bio-imaging agents. Determination of hydration is difficult, and various optical and NMR-based techniques have been used. Here we use EPR spectroscopy to unambiguously demonstrate that a t-butyl-pyridyl-functionalised ErIII DOTA derivative coordinates water, while its methylphosphinate analogue does not.

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Giansiracusa, M. J., Vonci, M., Whyatt, Y. L., Williams, C., Mason, K., Parker, D., … Chilton, N. F. (2023). Determination of molecular hydration in solution via changes in magnetic anisotropy. Chemical Communications, 59(30), 4531–4534. https://doi.org/10.1039/d3cc00601h

Determination of molecular hydration in solution via changes in magnetic anisotropy

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