%0 Conference Paper %F Oral %T Pushing limits of icp-ms/ms for the determination of ultralow 236U/238U isotope ratios %+ Laboratoire d'expertise, de radiochimie et de chimie analytique (IRSN/PSE-ENV/SAME/LERCA) %+ Laboratoire de recherche sur le devenir des pollutions de sites radioactifs (IRSN/PSE-ENV/SEDRE/LELI) %+ Universität Wien %A Jaegler, Hugo %A Gourgiotis, Alkiviadis %A Steier, Peter %A Golser, Robin %A Diez, Olivier %A Cazala, Charlotte %Z IRSN %< avec comité de lecture %B Radiobioassay & Radiochemical Measurements Conference 2022 %C Atlanta, United States %8 2022-10-30 %D 2022 %Z Chemical Sciences/Analytical chemistryConference papers %X In the context of radiological impact assessments, it is sometimes necessary to discriminate the different origins of the same element within a pollution. This is the case, for example, with uranium in the environment of former mining sites, which can come from the geochemical background, mining activities, uranium cycle facilities or former nuclear tests global fallout.The highly contrasted 236U/238U isotope ratio between geochemical background (10-14 – 10-12), uranium ore (10-12 – 10-10) and global deposition (10-9 – 10-7), could be used as a tracer of the uranium source . However, low values of such ratios make detection, by conventional mass spectrometry instruments, particularly difficult.For the first time, we measured 236U/238U isotope ratios in the range of 10-10 with a triple quadrupole mass spectrometer (ICP-MS/MS). So far, such low ratios were only detectable with an acceleration mass spectrometer (AMS).The precise determination of the U-236 signal is made possible by a good abundance senstivity and the reduction in the formation of uranium hydrides (235HU+ ions), which constitute the majority interference to mass 236. For this purpose, an effective desolvating system was installed and nitrous oxide (N2O) was used as a reaction gas in the ICP-MS/MS reaction/collision cell. This methodology has been successfully tested by measuring certified reference materials and environmental samples previously characterized by AMS, for ratios ranging from 10-6 to 10-10. The ability to detect very low isotope ratios opens the way to a wide range of geochemical applications, particularly on the uranium marking of the environment by anthropogenic activities.Hugo Jaegler, et al. Pushing Limits of ICP–MS/MS for the Determination of Ultralow 236U/238U Isotope Ratios. Analytical Chemistry (2020) 92 (11), 7869-7876. DOI: 10.1021/acs.analchem.0c01121 %G English %L irsn-04060605 %U https://irsn.hal.science/irsn-04060605 %~ IRSN %~ PSEENV %~ SEDRE %~ SAME