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Molecular geochemistry of radium: A key to understanding cation adsorption reaction on clay minerals.

Authors :
Yamaguchi, Akiko
Kurihara, Yuichi
Nagata, Kojiro
Tanaka, Kazuya
Higaki, Shogo
Kobayashi, Tohru
Tanida, Hajime
Ohara, Yoshiyuki
Yokoyama, Keiichi
Yaita, Tsuyoshi
Yoshimura, Takashi
Okumura, Masahiko
Takahashi, Yoshio
Source :
Journal of Colloid & Interface Science. May2024, Vol. 661, p317-332. 16p.
Publication Year :
2024

Abstract

[Display omitted] Adsorption reactions of various cations on clay minerals have different effects on their environmental behaviors depending on the molecular-scale adsorption structure. Some cations form outer-sphere complexes via hydration, while others create inner-sphere complexes through dehydration. This preference dictates their environmental impact. However, the factors controlling these complex formations remain unclear. Furthermore, research on the adsorption preferences of radium (Ra) is lacking. Thus, this study conducted the first EXAFS study of Ra2+ adsorbed on clay minerals and showed that Ra2+ forms inner-sphere complexes on vermiculite, which can be surprising because Ra2+ is a divalent cation and prefers to be hydrated. In order to investigate the factors controlling the complex formations, this study conducted systematic EXAFS measurements and DFT calculations for alkali and alkaline earth metal cations. The results showed the importance of the size-matching effect between the adsorbed cation and the cavity of the tetrahedral sheets and that the complex formation can be estimated by the combination of the ionic radius and hydration enthalpy of the adsorbed cation. Furthermore, this study also analyzed environmental core samples. Their results showed the fixation of Ra2+ by clay minerals and the controlling factors can effectively predict cation environmental behavior. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00219797
Volume :
661
Database :
Academic Search Index
Journal :
Journal of Colloid & Interface Science
Publication Type :
Academic Journal
Accession number :
175638827
Full Text :
https://doi.org/10.1016/j.jcis.2024.01.120