Elimination of isobaric interferences in ICP-MS, using ion–molecule reaction chemistry: Rb/Sr age determination of magmatic rocks, a case study
- 20 August 2001
- journal article
- research article
- Published by Royal Society of Chemistry (RSC) in Journal of Analytical Atomic Spectrometry
- Vol. 16 (9) , 991-994
- https://doi.org/10.1039/b103707m
Abstract
It is shown that ion–molecule reactions in a dynamic reaction cell (DRC) allow the 87Rb/87Sr isobaric interference to be eliminated and that Sr isotope ratios can be determined precisely and accurately by measuring the intensities of the corresponding SrF+ ion beams after selective reaction of Sr with CH3F in the cell. The technique is used for the Rb/Sr age determination of magmatic rocks, without any sample pre-treatment except for the dissolution of the samples. Sr isotope ratios can thus be measured with a precision that is very near to counting statistics and the measured age and initial 87Sr/86Sr ratio of the rocks fully agrees with reference values of thermal ionisation mass spectrometry (TIMS). The precision of the age is of the same order as the precision of the TIMS results.Keywords
This publication has 5 references indexed in Scilit:
- Effect of collisional damping and reactions in a dynamic reaction cell on the precision of isotope ratio measurementsJournal of Analytical Atomic Spectrometry, 2000
- Evaluation of the Isotope Ratio Performance of an Axial Time-of-Flight ICP Mass SpectrometerAnalytical Chemistry, 1999
- Preliminary Investigation of Electrothermal Vaporization Sample Introduction for Inductively Coupled Plasma Time-of-Flight Mass SpectrometryAnalytical Chemistry, 1999
- The only general method for overcoming spectroscopic interference requires double-focusing instrumentation.: Double-Focusing Mass Spectrometers in ICPMSAnalytical Chemistry, 1998
- Precise Measurement of Isotope Ratios with a Double-Focusing Magnetic Sector ICP Mass SpectrometerAnalytical Chemistry, 1996