Sorption Characteristics of Rare Earth Element Eu<sup>3+</sup> onto Silica-Water Interfaces Studied by Fluorescence Spectroscopy

Xiulan Yin; Ping Hu; Dien Li

Dec 2004

Article Contents

Journal of Earth Science > 2004 > 15(4): 355-360.

Xiulan Yin, Ping Hu, Dien Li. Sorption Characteristics of Rare Earth Element Eu3+ onto Silica-Water Interfaces Studied by Fluorescence Spectroscopy. Journal of Earth Science, 2004, 15(4): 355-360.

Citation:

Xiulan Yin, Ping Hu, Dien Li. Sorption Characteristics of Rare Earth Element Eu³⁺ onto Silica-Water Interfaces Studied by Fluorescence Spectroscopy. Journal of Earth Science, 2004, 15(4): 355-360.

Xiulan Yin, Ping Hu, Dien Li. Sorption Characteristics of Rare Earth Element Eu3+ onto Silica-Water Interfaces Studied by Fluorescence Spectroscopy. Journal of Earth Science, 2004, 15(4): 355-360.

Citation:

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Sorption Characteristics of Rare Earth Element Eu³⁺ onto Silica-Water Interfaces Studied by Fluorescence Spectroscopy

China Institute of Geo-env ironmental Monitoring, Beijing 100081, China
Faculty of Earth Sciences, China University of Geosciences, Wuhan 430074, China
Northeastern Illinois University, Chicago, IL 60625, USA
Division of Earth and Environmental Sciences, Los Alamos National Laboratory, Los Alamos, NM 87544, USA

Funds:

Los Alamos National Laboratory and Department of Energy, USA

Received Date: 10 Jan 2004
Accepted Date: 20 May 2004

Abstract

Abstract

The sorption of Eu species onto nano-size silica-water interfaces was investigated using fluorescence spectroscopy for pH ranges of 1-8.5 and an initial Eu concentration (C_Eu) of 2×10^-4 M. The sorption rate of Eu was initially low, but significantly increased at pH > 4.The sorption density of Eu species on a silica surface was ~1.58×10^-7mol/m² when the dissolved Eu species were completely sorbed onto silica-water interfaces at pH＝~5.8.The sorbed Eu species at pH < 6 is aquo Eu³⁺, which is sorbed onto silica-water interfaces as an outer-sphere complex at pH < 5, but may be sorbed as an inner-sphere bidentate complex at 5 < pH < 6, due to the decrease of NH 2O to ~6 at pH＝6.At pH＝6 -8.5, Eu(OH)₂⁺, Eu(CO₃)⁺ and Eu(CO₃)₂^- formed in the solutions, and Eu(CO₃)⁺ is dominant at pH＝~7.5.These ions may be sorbed onto silica-water interfaces as inner-sphere bidentate complexes.
- nano-size silica,
- surface sorption,
- Eu³⁶ ion,
- fluorescence spectroscopy

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References

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Sorption Characteristics of Rare Earth Element Eu³⁺ onto Silica-Water Interfaces Studied by Fluorescence Spectroscopy