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ESE-Detected Molecular Motions of Spin-Labeled Molecules on a Solid Inorganic Surface: Motional Models and Onset Temperatures

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Abstract

Electron spin echo (ESE) decays are highly sensitive to stochastic librations which are a general property of molecular solids of various origins. Adsorption of spin-labeled molecules on a solid inorganic surface under diluted conditions allows studying the motion devoid of the effects of cooperativity. Here, the temperature dependence of the motion-induced spin relaxation was studied for different types of spin-labeled molecules adsorbed on a SiO2 surface. The spin relaxation rate for all the systems was found to attain well-defined maxima, which is in agreement with the model of uniaxial molecular librations. For spin-labeled stearic acid, the enhanced maximal relaxation rate was found which was interpreted as manifestation of two-axial (or planar) motion that is naturally expected for long flexible molecules. The data obtained suggest that the onset of the motions observed at two different temperatures, 100 K and 130 K, may be attributed to torsional and bending types of the motion, respectively. The models of non-cooperative motion developed for adsorbed molecules may become useful for analyzing motions in complex biological media, frozen ionic liquids, polymers, etc.

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Acknowledgements

This work was jointly supported by the Russian Foundation for Basic Research and by the Government of Novosibirsk Region, project # 18-43-540004. MDZ gratefully acknowledge the financial support by University of Padova (project P-DiSC#04BIRD2019-UNIPD) and by MIUR (PRIN2017 project n. 20173LBZM2).

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Correspondence to Sergei A. Dzuba.

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Golysheva, E.A., Samoilova, R.I., De Zotti, M. et al. ESE-Detected Molecular Motions of Spin-Labeled Molecules on a Solid Inorganic Surface: Motional Models and Onset Temperatures. Appl Magn Reson 51, 1019–1029 (2020). https://doi.org/10.1007/s00723-020-01212-2

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  • DOI: https://doi.org/10.1007/s00723-020-01212-2

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