High-Precision Tungsten Isotopic Analysis by Multicollection Negative Thermal Ionization Mass Spectrometry Based on Simultaneous Measurement of W and O-18/O-16 Isotope Ratios for Accurate Fractionation Correction - Université Claude Bernard Lyon 1 Accéder directement au contenu
Article Dans Une Revue Analytical Chemistry Année : 2016

High-Precision Tungsten Isotopic Analysis by Multicollection Negative Thermal Ionization Mass Spectrometry Based on Simultaneous Measurement of W and O-18/O-16 Isotope Ratios for Accurate Fractionation Correction

Anne Trinquier
  • Fonction : Auteur
Richard J. Walker
  • Fonction : Auteur

Résumé

Determination of the W-182/W-184 ratio to a precision of +/- 5 ppm (2 sigma) is desirable for constraining the timing of core formation and other early planetary differentiation processes. However, WO3- analysis by negative thermal ionization mass spectrometry normally results in a residual correlation between the instrumental-mass-fractionation-corrected (182)w/(184)w and W-183/W-184 ratios that is attributed to mass-dependent variability of 0 isotopes over the course of an analysis and between different analyses. A second-order correction using the W-183/W-184 ratio relies on the assumption that this ratio is constant in nature. This may prove invalid, as has already been realized for other isotope systems. The present study utilizes simultaneous monitoring of the O-18/O-16 and W isotope ratios to correct oxide interferences on a per-integration basis and thus avoid the need for a double normalization of W isotopes. After normalization of W isotope ratios to a pair of W isotopes, following the exponential law, no residual W-O isotope correlation is observed. However, there is a nonideal mass bias residual correlation between W-182/W-i and W-183/W-i with time. Without double normalization of W isotopes and on the basis of three or four duplicate analyses, the external reproducibility per session of W-182/W-184 and W-183/W-184 normalized to W-186/W-183 is 5-6 ppm (2 sigma, 1-3 mu g loads). The combined uncertainty per session is less than 4 ppm for 183W/184W and less than 6 ppm for 182W/184W (2 sigma(m)) for loads between 3000 and 50 ng.

Dates et versions

hal-02331369 , version 1 (24-10-2019)

Identifiants

Citer

Anne Trinquier, Mathieu Touboul, Richard J. Walker. High-Precision Tungsten Isotopic Analysis by Multicollection Negative Thermal Ionization Mass Spectrometry Based on Simultaneous Measurement of W and O-18/O-16 Isotope Ratios for Accurate Fractionation Correction. Analytical Chemistry, 2016, 88 (3), pp.1542-1546. ⟨10.1021/acs.analchem.5b04006⟩. ⟨hal-02331369⟩
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