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Robust Potassium Isotopic Analysis of Geological and Biological Samples via Multicollector ICP-Mass Spectrometry Using the “Extra-High Resolution Mode”

Kasper Hobin, Marta Costas‐Rodríguez, Frank Vanhaecke

2021Analytical Chemistry27 citationsDOIOpen Access PDF

Abstract

Potassium isotopic analysis is arousing increasing interest, not only in geochemistry, but also in biomedicine. However, real-life applications are still hindered by the lack of robustness of the methods used. In this work, a novel and robust method for high-precision K isotopic analysis of geological and biological samples was developed, based on the use of a multicollector ICP-mass spectrometer providing a mass resolving power of 15,000 (extra-high resolution mode, XHR). After evaluation of different measurement conditions, i.e., hot vs cold plasma conditions, standard-type vs jet-type sampling cone, and high resolution (HR) vs XHR, a combination of hot plasma conditions, use of the high-transmission jet-type sampling cone, and the XHR mode allowed for high-precision and interference-free K isotopic analysis. Potassium signal monitoring was performed in the ArH+ interference-free 0.006–0.007 amu wide peak shoulder using the XHR mode. The within-run, short-term external, and long-term external precisions for the δ41K value were 0.02‰ (2se, N = 50), 0.03‰ (2SD, N = 7), and 0.06‰ (2SD, N = 163), respectively. A two-stage chromatographic procedure was developed for the isolation of K from both geological and biological samples, and potential matrix effects affecting the K isotope ratio were systematically evaluated. The method was first applied to geological reference materials (RMs) for validation purposes, and the K isotope ratio results were in good agreement with those previously reported. Subsequently, a series of biological RMs, including serum, whole blood, cerebrospinal fluid, bovine muscle, and lobster hepatopancreas, were characterized for their K isotopic composition.

Topics & Concepts

ChemistryMass spectrometryInductively coupled plasma mass spectrometryResolution (logic)PotassiumIsotopeHigh resolutionAnalytical Chemistry (journal)Mode (computer interface)ChromatographyEnvironmental chemistryRemote sensingGeologyNuclear physicsComputer scienceArtificial intelligenceOperating systemPhysicsOrganic chemistryChemical Analysis and Environmental ImpactAnalytical chemistry methods developmentChemical Synthesis and Characterization
Robust Potassium Isotopic Analysis of Geological and Biological Samples via Multicollector ICP-Mass Spectrometry Using the “Extra-High Resolution Mode” | Litcius