Abstract
The platinum (Pt) distribution in urban matrices, soils and dusts was studied in five cities, from north (Padova), central (Rome and Viterbo), and south (Naples and Palermo) Italy, in order to obtain a large set of data concerning pollution from autocatalysts. Quantitative analyses, made by inductively coupled plasma mass-spectroscopy (ICP-MS), show a beginning of Pt enrichment in urban soils, with concentration ranges of 0.1–5.7 ng/g (Padova), 7–19.4 ng/g (Rome), 4.9–20 ng/g (Viterbo), 4.7–14.3 ng/g (Naples), and 0.2–3.9 ng/g (Palermo). These results can be related to vehicular traffic, because the concentrations decrease with the distance from the roads. The high concentrations found in road and tunnel dusts (up to 1177 ng/g) confirm these samples as the major reserve of the particulate matter that is released with the exhaust fumes (which is responsible for the Pt enrichment). Qualitative analyses by laser-ablation-ICP-MS (LA-ICP-MS) were used, in addition, to determine the real presence of the catalyst particles in the urban dusts. The association of the analytical signals of cerium, platinum, and rhodium was used as a fingerprint to distinguish the catalyst particles from the other components of the urban dusts. The scanning electron microscopy (Energy Dispersive Spectrometer-Scanning Electron Microscope; EDS-SEM) qualitative analysis was also used to characterize the morphology of the autocatalyst and its related elemental distribution.
We gratefully thank Dr. Manuele Bernabei from the IAF-Flight Test Center, Chemistry Department of “Pratica di Mare – AFB,” for the admission to the EDS-SEM analysis.
Notes
a Only the three major isotopes of Pd are discussed in this table.
a Based only on the samples from Viterbo.
a Cinti et al. (Citation2002).
b Angelone et al. (Citation2002).
c Cicchella et al. (Citation2003).
d Angelone (unpublished data).
a HT: High traffic.
a Signal intensities obtained on solutions diluted with a 1:10 factor.
b Signal intensities obtained on solutions diluted with a 1:100 factor.
a Signal intensities obtained on solutions diluted with a 1:10 factor.
b Signal intensities obtained on solutions diluted with a 1:100 factor.