Abstract:
The distribution coefficient (
Kd) of elements in ion exchange resin is the basis of element purification and separation, which is the premise for high-precision isotope analysis. However, systematic comparison of the
Kd in different types of acid is lacking, which has hindered the development of efficient separation procedures for emerging isotope system. In this research, the
Kd of 60 elements in AG
50W-X8 cationic resin with different concentrations and types of acid was studied. Our results show that, in acid solutions, the
Kd of almost all elements is negatively related to acidity. Compared to nitric acid, a significant decrease in the
Kd for Al, Fe, Se, Pd, Cd, and In is observed in hydrochloric acid. The addition of hydrofluoric acid can significantly reduce the
Kd of Be, Al, Sc, Fe, Sn, Th, U, Ti, Zr, and Hf in dilute hydrochloric and nitric acid, so that they can be quantitively eluted from the resin. In the mixed hydrofluoric acid solutions,
KdREE shows an initial increasing and then decreasing trend as the concentration of HCl increases. The present study provides data support for the development and optimization of element purification processes that are suitable for high-precision metal stable isotope analysis. The BRIEF REPORT is available for this paper at
http://www.ykcs.ac.cn/en/article/doi/10.15898/j.ykcs.202309260154.
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