New Insights into the Cs Adsorption on Montmorillonite Clay from 133 Cs Solid-state NMR and Density Functional Theory Calculations - Archive ouverte HAL
Article Dans Une Revue Journal of Physical Chemistry A Année : 2018

New Insights into the Cs Adsorption on Montmorillonite Clay from 133 Cs Solid-state NMR and Density Functional Theory Calculations

Résumé

The adsorption sites of Cs on montmorillonite clays were investigated by theoretical 133Cs chemical shift calculations, 133Cs magic-angle-spinning nuclear magnetic resonance (MAS NMR) spectroscopy, and X-ray diffraction under controlled relative humidity. The theoretical calculations were carried out for structures with three stacking variations in the clay layers, where hexagonal cavities formed with Si–O bonds in the tetrahedral layers were aligned as monoclinic, parallel, alternated; with various d-spacings. After structural optimization, all Cs atoms were positioned around the center of hexagonal cavities in the upper or lower tetrahedral sheets. The calculated 133Cs chemical shifts were highly sensitive to the tetrahedral Al (AlT)-Cs distance and d-spacing, rather than to the Cs coordination number. Accordingly, three peaks observed in our theoretical spectra were interpreted to be adsorbed Cs around the center of hexagonal cavity with or without AlT and on the surface in the open nanospace. In a series of 133Cs MAS NMR spectral changes for partial Cs substituted samples, the Cs atoms are preferentially adsorbed at sites near AlT for low Cs substituted montmorillonites. The presence of nonhydrated Cs was also confirmed in partially Cs substituted samples, even after being hydrated under high relative humidity.
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Dates et versions

hal-01914563 , version 1 (07-11-2018)

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Takahiro Ohkubo, Takuya Okamoto, Katsuyuki Kawamura, Régis Guégan, Kenzo Deguchi, et al.. New Insights into the Cs Adsorption on Montmorillonite Clay from 133 Cs Solid-state NMR and Density Functional Theory Calculations. Journal of Physical Chemistry A, 2018, 122, pp.9326-9337. ⟨10.1021/acs.jpca.8b07276⟩. ⟨hal-01914563⟩
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