In October 2017, most European countries reported unique atmospheric detections of aerosol-bound radioruthenium (106Ru). The range of concentrations varied from some tenths of µBq·m−3 to more than 150 mBq·m−3. The widespread detection at such considerable (yet innocuous) levels suggested a considerable release. To compare activity reports of airborne 106Ru with different sampling periods, concentrations were reconstructed based on the most probable plume presence duration at each location. Based on airborne concentration spreading and chemical considerations, it is possible to assume that the release occurred in the Southern Urals region (Russian Federation). The 106Ru age was estimated to be about 2 years. It exhibited highly soluble and less soluble fractions in aqueous media, high radiopurity (lack of concomitant radionuclides), and volatility between 700 and 1,000 °C, thus suggesting a release at an advanced stage in the reprocessing of nuclear fuel. The amount and isotopic characteristics of the radioruthenium release may indicate a context with the production of a large 144Ce source for a neutrino experiment.
A dependence of the formation of tri-n-octylphosphine-capped Ni nanocrystals on the presence of halide ions during their synthesis is shown. For the application-oriented synthesis of Ni particles, this information can be crucial. Furthermore, Ni nanoparticles can be converted to nickel phosphide or sulphide by heating them up in the presence of a phosphorus or sulphur source, resulting in either solid or hollow nanocrystals, formed via the nanoscale Kirkendall effect, depending on the synthesis route. By adjusting the Ni crystallite size in the initial nanoparticles via the halide ion concentration the cavity size of the resulting hollow nanocrystals can be tuned, which is otherwise impossible to realise for particles of a similar total diameter by using this process. The synthesised hollow Ni 3 S 2 nanocrystals exhibit a much sharper localised surface plasmon resonance (LSPR) band than all previously presented particles of this material, which is known to show molar extinction coefficients at the LSPR maximum similar to Au. This narrow linewidth could be explained by the nanoparticles' high crystallinity resulting from the Kirkendall process and is interesting for various possible optical applications such as surface-enhanced Raman spectroscopy owing to the low cost of the involved materials compared to the widely used noble metals.
Radiometric or mass spectrometric
analysis of the long-lived fission
product 107Pd is notoriously difficult. We developed and
optimized a chemical separation protocol for minute amounts of radiopalladium
with a subsequent measurement by inductively coupled plasma triple
quadrupole mass spectrometry with propane as the collision gas. This
allows for detection limits of <2 ng of 107Pd/kg, which
makes the method suitable for environmental samples with low levels
of 107Pd. For testing of this method, a sample of sediment
from the Chernobyl cooling pond was analyzed. Indeed, it could be
shown that the cooling pond sediment exhibits a uniquely increased 107Pd/105Pd ratio (0.08 ± 0.02), thus strongly
indicating detectable levels of 107Pd using this method.
We conducted a comprehensive radiation
hazard assessment of the
Tokyo Olympic Games (Tokyo 2020, postponed to 2021). Our combined
experimental and literature study focused on both external and internal
exposure to ionizing radiation for athletes and visitors of the Games.
The effective dose for a visit of 2 weeks ranges from 57 to 310 μSv
(including flight dose). The main contributors to the dose are cosmic
radiation during the flights (approximately 10–81%), inhalation
of natural radon (approximately 9–47%), and external exposure
(approximately 8–42%). In this complex exposure, anthropogenic
radionuclides from the Fukushima nuclear accident (2011) always play
a minor role and have not caused a significant increase of the radiological
risk compared to pre-Fukushima Japan. Significantly elevated air dose
rates were not measured at any of the Tokyo Olympic venues. The average
air dose rates at the Tokyo 2020 sites were below the average air
dose rates at the sites of previous Olympic Games. The level of radiological
safety of foods and water is very high in Japan, even for athletes
with increased water and caloric demands, respectively.
The presence of environmental radiosilver and the investigation of the 108m Ag/ 110m Ag isotopic ratio in the aftermath of a nuclear power plant accident provide valuable information on the condition of the control rods of pressurized water reactors. However, the detection of minute amounts of the γemitting radiosilver isotopes is often thwarted by the presence of concomitant and dominating γ emitters, primarily 137 Cs, which results in increased detection limits in the γ spectra. We developed a rapid and robust separation protocol for trace silver extraction in the presence of overwhelming activities of 137 Cs via the autodepostion of silver on a copper plate. This method achieved a quantitative removal of interfering 137 Cs in the deposition product and proved to be very efficient (yields >70% for aqueous samples), rapid (results within 4 h), and robust with respect to varying salinities and composition of the water samples. The autodeposition approach is also applicable for organic samples after acidassisted microwave digestion. By applying the established sequential extraction protocols for soil, the fate of freshly deposited radiosilver and radiocesium in soil was investigated. Silver showed a high affinity to the soil with a pronounced (>90%) accumulation in the residual fraction after the sequential extraction, whereas radiocesium exhibited higher mobility, allowing for the extraction of major fractions in the first extraction steps. The composition of the aqueous contamination matrix (CaCl 2 or Ca(NO 3 ) 2 ) had a significant influence on the binding properties of cesium on soil.
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