Determination of the isotopic composition of single sub-micrometer-sized uranium particles by laser ablation coupled with multi-collector inductively coupled plasma mass spectrometry.

RATIONALE

A multi-collector inductively coupled plasma (MC-ICP) mass spectrometer coupled to a UV ns-laser ablation (LA) system was used to measure uranium isotopic ratios ( U/ U, U/ U and U/ U) in single uranium particles of various sizes and isotopic compositions, including home-made sub-micrometric natural uranium particles of narrow size distribution (415 ± 60 nm).

METHODS

The LA-ICP mass spectrometer was operated in wet plasma conditions thanks to simultaneous injection of the laser aerosol and water vapor through a desolvating nebulizer. The isotopic ratios were corrected for mass bias and gain factors between detectors. The U/ U ratios were also corrected for the presence of U hydrides and tailing of the U peak.

RESULTS

U/ U ratios were successfully measured in micrometer-sized particles from the NBS U050 certified standard material with a U/ U ratio of ~5 × 10 . The analysis of 77 natural uranium sub-μm-sized particles yielded a very good trueness with respect to the expected U/ U and U/ U ratios, while the measurement errors for single particles ranged from -2.7% to +2.1% for U/ U and from -17% to +33% for the U/ U ratios. Their relative combined standard uncertainties ranged from 3.3% to 32.8% and from 0.4% to 4.0% for U/ U and U/ U ratios, respectively. In addition, extremely low detection limits, in the attogram range, were achieved.

CONCLUSIONS

This study demonstrates that coupling of a ns-laser ablation system with a MC-ICP mass spectrometer allows measurements of the isotopic composition in natural uranium particles of a few hundreds of nm with very good trueness, average combined standard uncertainties of ~1% for U/ U ratios and 12% for U/ U ratios, and detections limits of a few ag for minor isotopes.