76 research outputs found
Influence of rare earth metals addition on the corrosion behaviour of copper in alkaline environment
Comunicazione sociale: persuasione o conoscenza?
Analisi interpretativa sugli aspetti che si possono ritenere sociologicamente salienti circa i dati e le caratteristiche della comunicazione sociale in Italia, con interrogativi di ricerca
La conservazione degli apparati architettonici e decorativi della "Scala Santa" nel complesso del Palazzo Ducale in Mantova
Development of new analytical methods based on ICP-MS for the determination of rare earth elements in geological samples
Conversion of rare earth elements to molecular oxide ions in a dynamic reaction cell and consequences on their determination by inductively coupled plasma mass spectrometry
The behaviour of rare earth elements (REEs) ions within a dynamic reaction cell (DRC) pressurized with oxygen was investigated, in order to explore their determination at m/z +16 by inductively coupled plasma mass spectrometry (ICP-MS). Under the optimized conditions, the conversion of REEs to
molecular monoxide ions was nearly quantitative (>96%), with the exception of Tm (78%), Eu (11%) and Yb (6%). Moreover, the formation of dioxide ions was generally lower than 1%. According to these results, a new method for the determination of REEs in digests from geological samples was developed.
After microwave-assisted acid digestion, the solutions were directly analyzed by ICP-MS, determining REEs at m/z +16. The interferences due to dioxide and un-reacted ions were carefully evaluated by taking into account the actual concentration of REEs in sediment samples. In addition, the possible interferences due to other constituents of sediments (e.g. barium) were considered. The accurate determination of Y, La, Ce, Pr, Nd, Sm, Tb, Dy, Ho, Er and Tm was achieved, as demonstrated by the
analysis of both certified reference materials and Antarctic marine sediment samples, using ICP sector field mass spectrometry (ICP-SFMS) for comparison. On the other hand, Eu, Gd, Yb and Lu could not be measured by the O-atom addition approach and their separate determination in the standard mode
using mathematical correction is hence necessary to obtain the complete REE pattern. The quantification limits (10 times the standard deviation of 10 procedural blanks) were at least two orders of magnitude lower than the REEs concentrations in sediment samples. Precision of the procedure ranged from 1.6% to 6.4%
HEAVY-METAL DISTRIBUTION IN SUSPENDED MATTER IN COASTAL AND OFFSHORE WATERS IN ROSS SEA (ANTARCTICA)
Development of new analytical methods based on ICP-MS for the determination of rare earth elements in geological samples
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