MethodsSEM images have been obtaine

Methods
SEM images have been obtained by a gaseous secondary
electron detector (GSE) with an accelerating voltage of
30 kV. All the samples have directly been introduced in
the microscope sample chamber without any further
preparation. SEM Philips XL30 operates in the low
vacuum (LV) mode (0.7 torr). In the LV mode, gas
molecules surrounding the electron beam for specimen
illumination are ionized and electrically neutralize charging
of the specimen surface, thus, non conductive specimens
can be observed without coating.
An X-Ray spectrum has been collected for 120sec for
every SEM image. This allows us to recognize both the
main elements and the trace elements. X-ray intensities
were converted in wt% elements by a standarless ZAF
quantification, as it is shown in literature for similar use of
SEM analysis [18,29]; 20 chemical parameters (C, O, Na,
Mg, Al, Si, P, Cd, Cl, K, Ca, Sn, Ti, Cr, Mn, Fe, Co, Ni, Cu,
Zn) were determined by SEM-EDS and 7 morphological
parameters (Area, Aspect Ratio, Roundness, Fractal
Dimension, Box Width, Box Height, Perimeter) were measured
by Image Pro Analyzer 6.3 software. For each particle,
the calculated concentration for a specific element is
quantified if it is larger than the standard deviation sb of
the signal of the polycarbonate membrane. In cases in
which the concentration is below the method detection
limit (MLD), or not detectable above the average variability
of the blank filter, a concentration value equal to the maximum
between the MDL and sb has been assumed.
In order to carry out the morphological and chemical
analyses of the single particles, SEM images have to
show particles well separated from each other and,
moreover, the presence of particle clusters, which can
be generated during long time sampling, have to be
minimized. In order to choose the best sampling condition,
filters sampled in each site for 24, 12 and 6 hours
have been observed by SEM. SEM images of particles
sampled in the yard site are shown in Figure 12. This
site presents a higher amount of PM10 than the other
sites and it is due to the construction activity in this
site, so its SEM images of PM show a higher amount of
particles and clusters than the other site images. 6 hours
sampled filters were chosen because they present distinct
particles and because the number of clusters is
reduced in comparison to filters sampled for 12 and 24
hours. In this work filters sampled from 12:30 to 18:30
were analyzed. In order to study the atmospheric particles
sampled in the same time period in the selected
sites, 6 hours sampled filters of Antonelli Park (urban
site) and St. Augustine (rural site) were also analyzed.
In order to obtain detailed SEM images for an accurate
determination of morphological parameters, the image
definition and the area of the particles are essential. Considering
that in the scanning electron microscope the
lateral resolution is often on the order of 100-200 nm for
atmospheric aerosol particles with low contrast (i.e. particles
from combustion processes) and that microanalysis of
particles with diameter less than 0,6 μm gives signals not
statistically distinguishable from background [30], then,
five magnifications were determined and, for each one,
particles with defined area and diameter were analyzed.
The selected magnification of SEM images and the dimensions
of the analyzed particles are: particles of area
between 72.3 and 289.4 μm 2 (which correspond to 9.6-
19.2 μm diameter respectively) have been observed with a
magnification of 600x, particles area between 18.1 and
72.3 μm 2 (4.8 – 9.6 μm diameter) with a magnification of
1200x, particles area between 4.5 and 18.1 μm 2 (2.4 – 4.8
μm diameter) with a magnification of 2500x, particles area
between 1.13 and 4.5 μm 2 (1.2 – 2.4 μm diameter) with a
magnification of 5000x and then a particles area between
0.28 and 1.13 μm 2 (0.6 – 1.2 μm diameter) has been
observed with a magnification of 10000x. These selected
magnifications allow to analyze the chemical and morphological
parameters of particles in the entire particle size
range considered (with a continuous area and diameter
range, 0.28 - 289.4 μm2 and 0.6 - 19.2 μm respectively).
About 80 particles were analyzed in each selected
range and in each site. In total 495, 527 and 317 particles
belonging to the yard, urban and rural sites, respectively,
were analyzed.