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Complete resolution across the neodymium/samarium isotopic envelope with a liquid sampling-atmospheric pressure glow discharge — Orbitrap mass spectrometer

by Joseph Goodwin, Suraj Shrestha, Benjamin T Manard, R. Marcus
Publication Type
Journal
Journal Name
Rapid Communications in Mass Spectrometry
Publication Date
Page Numbers
1 to 8
Volume
38
Issue
23

Rationale: Nd and Sm isotope ratios play an important role in geological dating and as nuclear forensic signatures; however, the overlap of the respective 144, 148, 150 Nd/Sm isobars requires prior separations to be performed before analysis on typical MS platforms. The work presented here overcomes these isobaric interferences using ultrahigh-mass resolution to alleviate interference without prior chemical separations. Methods: A liquid sampling-atmospheric pressure glow discharge ion source was coupled to a standard, QExactive Focus Orbitrap mass spectrometer, providing a mass resolution of ~80 k. A Spectroswiss FTMS booster X2 data acquisition package was used to collect extended transients, providing much higher mass resolution; ~230 k and ~600 k are employed here for Nd and Sm isotopes. Results: While the standard Orbitrap resolution is far greater than typical “atomic” MS platforms, it was insufficient to alleviate all isobars. The use of a resolution of ~230 k resulted in baseline separation across the entire isotopic envelope for both Nd and Sm. Isotope ratios obtained from Nd:Sm mixtures using high-resolution were equivalent to those found for individual-element solutions, while isotope ratios obtained at a resolution of ~80 k (standard for the OEM data system) showed large deviations. Conclusions: Use of ultrahigh-resolution is an attractive alternative to extensive chemical separations to alleviate severe isobaric interferences. Sufficient mass resolution greatly reduces/eliminates the need for sample manipulations (separations) before analysis while reducing costs and total analysis times.