| Abstract | In this study, we report the first independent and primary isotope ratio measurement of indium by MC-ICP-MS, utilizing gravimetric isotope mixtures of two near-pure enriched indium isotopes. Consistent with previous findings, we observe that the traditional one-mixture-at-a-time calibration approach can introduce a strong dependence of the resulting isotope ratio correction factors on the composition of the mixtures. Our analysis suggests that this is due to biases inherent in measuring the isotopic composition of pure isotopic materials. To address this issue, we propose an improved calibration strategy that omits the use of isotope ratios measured in the two near-pure indium isotopes, at the expense of measuring additional isotope mixtures. The revised calibration approach yields an indium isotope ratio n(¹¹³In)/n(¹¹⁵In) = 0.044 655 ± 0.000 009 (95% confidence level) for the high-purity indium isotopic reference material (NRC HIIN-1). This result is in agreement with our 2010 result (0.044 72 ± 0.000 19, 95% confidence level), obtained using the regression method with NIST SRM978a silver as a calibrator, while showing an improvement in measurement uncertainty by an order of magnitude. |
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