Abstract

Surface chemical composition of atmospheric particles plays an important role in determining reactivity and optical properties of aerosol than influencing its role in climate forcing (Ramanathan et al., 2001) and in the human health effects (Klejnowski et al. 2012, Kendall et al., 2001). In addition, surface composition is strongly depending on the sources/formation processes and on the size of particles. Particle modification in terms of composition and structure may also lead to multiple evolution pathways. There are many methods and instruments available for studying different properties of the surface of airborne Particulate Matter (PM), in terms of morphological and elemental composition (Coury and Dillner, 2008; Kirchner et al., 2003). X-ray photoelectron spectroscopy (XPS) could be a suitable technique to simultaneously investigate surface composition of particles and chemical speciation of the main elements like for example C, S, N, Na, Cl, Ca, Si, Mg and other minor hetero-elements. In this communication we present a systematic XPS surface study of different size fractions of PM. The samples analysed have been collected in a background site in Lecce inside the University Campus at about 4 km SW of the Lecce town (SE of Italy, coordinates 40°20'N, 18°06'E), in modality "size-segregated", using a 10-stage cascade impactor with rotating collection plates having an inlet with a nominal cut-off at 18 mm and 10 stages (MOUDI II, 120R). Flow-rate: 30 l/min and 10 stages (S1 - S10) nominal 50% efficiency cut-off at 10, 5.6, 3.2, 1.8, 1.0, 0.56, 0.32, Collection time was 48 h. Ten series of samples (100 sampling substrates in total) were collected between February and June 2011 on Al substrates (47 mm disks).The averaged mass size distribution showed a bimodal shape were the Accumulation mode was characterized with an of PM10) and the Coarse mode with an MMD=4.4 ± 0.4 44 ± 4.7% del PM10). XPS analysis has been focused first on the systematic evaluation of surface chemical composition of different size-segregated particles, to investigate the variability of the chemical surface composition comparing the accumulation and the coarse modes of atmospheric particles, and on the comparison between the chemical information (element quantitative distribution and speciation) of the surface with bulk chemical composition of collected particles when useful to investigate the generation processes and the sources of collected particles. The high resolution XPS spectra allowed to distinguish different organic functional groups (C-C/C=C, -C-O, -C=O/-C(O)N, -C(O)O, CO3=) and to speciate the detectable hetero-elements, sulphur (SO4=, sulphone and sulphide compounds), nitrogen (NH4+, NO3-, NO2- and organic-nitrogen compounds), sodium (Na+) and chlorine (Cl-) species. Significant differences in particles belonging to accumulation and coarse modes were observed and correlated with the formation processes and the sources from which particles originated. The oxygen co

Autore Pugliese

• Donateo Antonio , Cesari Daniela , Contini Daniele

Tutti gli autori

• M.R. Guascito; D. Cesari; L. Giotta; D. Chirizzi; A. Donateo; D. Contini

Titolo volume/Rivista

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Anno di pubblicazione

2016

ISSN

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ISBN

978-88-942135-0-8

Numero di citazioni Wos

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