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Experimental evidence for long-range stabilizing and destabilizing interactions between charge and radical sites in distonic ions

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posted on 2024-11-16, 03:51 authored by David Marshall, Ganna Gryn'ova, Berwyck Poad, Steven Bottle, Adam TrevittAdam Trevitt, M Coote, Stephen Blanksby
Polarizable radical sites in distonic radical anions are stabilized by ostensibly remote negative charges. Computational evidence suggests bond dissociation energies of closed-shell precursors are significantly lowered by through-space interactions with a proximate negative charge, however direct experimental confirmation has proved challenging. Herein, we exploit two complementary tandem mass spectrometry strategies to probe the influence of a remote charge on the stability of nitroxyl radicals, and vice versa. Dissociation of negatively charge-tagged alkoxyamines reveals that the energetic onset of radical formation is dependent on the proximity and basicity of the charged group, thus providing direct evidence for a charge-induced stabilization of the nitroxyl radical. Complementary kinetic method experiments on a series of proton-bound dimers demonstrate that the presence of a nitroxyl radical decreases the proton affinity for a selection of proximate ionic groups. These data show excellent agreement with quantum-chemical calculations and provide a general framework to explore the magnitude and direction of charge-radical interactions through systematic exploration of the identity, polarity and the proximity of the ion to the radical site. These findings expand our fundamental understanding of radical ion energetics that underpin the application of distonic ions as models for neutral radical reactivity, and open new avenues for exploiting these interactions as chemical switches.

Funding

ARC Centre of Excellence - Centre for Free Radical Chemistry and Biotechnology

Australian Research Council

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The photons take charge: Elucidating the structure and stability of distonic radical anions by mass spectrometry and photoelectron spectroscopy

Australian Research Council

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History

Citation

Marshall, D. L., Gryn'ova, G., Poad, B. L. J., Bottle, S. E., Trevitt, A. J., Coote, M. & Blanksby, S. J. (2019). Experimental evidence for long-range stabilizing and destabilizing interactions between charge and radical sites in distonic ions. International Journal of Mass Spectrometry, 435 195-203.

Journal title

International Journal of Mass Spectrometry

Volume

435

Pagination

195-203

Language

English

RIS ID

131706

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