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Volume 29 Issue 1
Jan 2018
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Journal of Earth Science  > 2018  >  29(1): 223-229.
Honglin Yuan, Xu Liu, Zhian Bao, Kaiyun Chen, Chunlei Zong. A Fast Separation Method for Isotope Analysis Based on Compressed Nitrogen Gas and Ion-Exchange Chromatography Technique—A Case Study of Sr-Nd Isotope Measurement. Journal of Earth Science, 2018, 29(1): 223-229. doi: 10.1007/s12583-017-0944-0
Citation: Honglin Yuan, Xu Liu, Zhian Bao, Kaiyun Chen, Chunlei Zong. A Fast Separation Method for Isotope Analysis Based on Compressed Nitrogen Gas and Ion-Exchange Chromatography Technique—A Case Study of Sr-Nd Isotope Measurement. Journal of Earth Science, 2018, 29(1): 223-229. doi: 10.1007/s12583-017-0944-0
shu

A Fast Separation Method for Isotope Analysis Based on Compressed Nitrogen Gas and Ion-Exchange Chromatography Technique—A Case Study of Sr-Nd Isotope Measurement

doi: 10.1007/s12583-017-0944-0
  • 1.

    State Key Laboratory of Cbrontinental Dynamics, Department of Geology, Northwest University; Collaborative Innovation Center of Continental Tectonics, Xi'an 710069, China

  • 2.

    College of Chemistry and Materials Science, Northwest University, Xi'an 710069, China

More Information
  • Corresponding author: Honglin Yuan, sklcd@nwu.edu.cn
  • Received Date: 21 Jun 2017
  • Accepted Date: 13 Nov 2017
  • Publish Date: 01 Feb 2018
    Abstract
  • High-purity N2 was used to increase the mobile phase flow rate during ion purification of ion-exchange resin. This was performed to improve the efficiency of isotope separation and purification, and to meet the efficiency requirements of rapid multiple-collector-inductively coupled plasma mass spectrometry (MC-ICPMS) analysis. For Cu isotope separation, our results indicated that at a gas flow rate > 60 mL/min, the separation chromatographic peaks broadened and the recovery rate decreased to < 99.2%. On the other hand, no significant change in the Cu peaks was observed at a gas flow rate of 20 mL/min and the recovery rate was determined to be > 99.9%. The Cu isotope ratio, measured by the standard-sample bracketing method, agreed with reference data within a ±2 SD error range. The separation time was reduced from the traditional 10 h (without N2) to 4 h (with N2), indicating that the efficiency was more than doubled. Moreover, Sr and Nd isotope separation in AGV-2 (US Geological Survey andesite standard sample) accelerated with a 20 mL/min gas flow, demonstrating that with the passage of N2, the purified liquid comprised Rb/Sr and Sm/Nd ratios of < 0.000 049 and < 0.000 001 5, respectively. This indicated an effective separation of Rb from Sr and Sm from Nd. MC-ICPMS could therefore be applied to accurately determine Sr and Nd isotope ratios. The results afforded were consistent with the reference data within a ±2 SD error range and the total separation time was shortened from 2 d to < 10 h.

     

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