Daniela Schönenbach scite author profile

Daniela Schönenbach

2Publications

10Citation Statements Received

94Citation Statements Given

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Affiliations

Johannes Gutenberg University Mainz

Publications

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Application of Resonance Ionization Mass Spectrometry for Ultratrace Analysis of Technetium

et al. 2017

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This work shows the ability of resonance ionization mass spectrometry (RIMS) to determine Tc at the ultratrace level. The characterization of the prepared samples by X-ray photoelectron spectroscopy (XPS) and optimization of the RIMS setup for this purpose, as well as the application of the RIMS method to a soil sample, are presented in this article.Tc was used as a tracer isotope to determine the amount of Tc in a soil sample with RIMS. With 8.8 × 10 atoms of Tc as the tracer, the concentration ofTc was found to be 1.5 × 10 atoms per gram of dried sample material, demonstrating the sensitivity of the method. Furthermore, it could be shown that the Tc solution containedTc as well. This is the first time that Tc have been simultaneously measured with RIMS.

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Development, characterization, and first application of a resonant laser secondary neutral mass spectrometry setup for the research of plutonium in the context of long-term nuclear waste storage

et al. 2021

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Plutonium is a major contributor to the radiotoxicity in a long-term nuclear waste repository; therefore, many studies have focused on interactions of plutonium with the technical, geotechnical, and geological barriers of a possible nuclear waste storage site. In order to gain new insights into the sorption on surfaces and diffusion of actinides through these complex heterogeneous materials, a highly sensitive method with spatial resolution is required. Resonant laser secondary neutral mass spectrometry (Laser-SNMS) uses the spatial resolution available in time-of-flight secondary ion mass spectrometry (TOF-SIMS) in combination with the high selectivity, sensitivity, and low background noise of resonance ionization mass spectrometry (RIMS) and is, therefore, a promising method for the study and analysis of the geochemical behavior of plutonium in long-term nuclear waste storage. The authors present an approach with a combined setup consisting of a commercial TOF-SIMS instrument and a Ti:sapphire (Ti:Sa) laser system, as well as its optimization, characterization, and improvements compared to the original proof of concept by Erdmann et al. (2009). As a first application, the spatial distributions of plutonium and other elements on the surface of a pyrite particle and a cement thin section were measured by Laser-SNMS and TOF-SIMS, respectively. These results exemplify the potential of these techniques for the surface analysis of heterogeneous materials in the context of nuclear safety research.

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