TXRF analysis of airborne particulate matter captured in liquid medium using a cyclone bioaerosol sampling approach
Articolo
Data di Pubblicazione:
2026
Abstract:
A deep investigation of the aerobiome is necessary to assess air quality and the effect of environments on people's
health. Characterization of airborne particulate matter (PM) is essential to study inorganic elements present in
aerobiome. This study proposes a proof-of-concept method integrating an innovative liquid-based sampler,
named Corlios Micro®, with Total Reflection X-ray Fluorescence (TXRF) analysis for rapid and multielemental
analysis of airborne PM. TXRF is a suitable analytical technique since it requires small sample amount for
analysis, making it ideal for low masses collected in liquid. Nevertheless, sampling in liquid medium poses some
challenges associated with the heterogeneity and representativeness of the sample. To address these effects, we
compared two sample preparation approaches - pre-concentration and lyophilization. Pre-concentration was
applied because of its simple procedure and fast analysis time. This approach revealed low repeatability, which
pointed to the problem of representativeness in highly dilute suspensions for the chemical analysis. On the other
hand, lyophilization, which enabled the analysis of the whole collected sample, demonstrated low variability
between replicates. This sample preparation method allowed to quantify the concentration of elements and
identify the differences among various locations in indoor and outdoor sites. This optimized procedure demonstrates
the potential of combining TXRF analysis with liquid-based airborne PM sampling for environmental
exposure assessment in complex indoor and outdoor environments.
health. Characterization of airborne particulate matter (PM) is essential to study inorganic elements present in
aerobiome. This study proposes a proof-of-concept method integrating an innovative liquid-based sampler,
named Corlios Micro®, with Total Reflection X-ray Fluorescence (TXRF) analysis for rapid and multielemental
analysis of airborne PM. TXRF is a suitable analytical technique since it requires small sample amount for
analysis, making it ideal for low masses collected in liquid. Nevertheless, sampling in liquid medium poses some
challenges associated with the heterogeneity and representativeness of the sample. To address these effects, we
compared two sample preparation approaches - pre-concentration and lyophilization. Pre-concentration was
applied because of its simple procedure and fast analysis time. This approach revealed low repeatability, which
pointed to the problem of representativeness in highly dilute suspensions for the chemical analysis. On the other
hand, lyophilization, which enabled the analysis of the whole collected sample, demonstrated low variability
between replicates. This sample preparation method allowed to quantify the concentration of elements and
identify the differences among various locations in indoor and outdoor sites. This optimized procedure demonstrates
the potential of combining TXRF analysis with liquid-based airborne PM sampling for environmental
exposure assessment in complex indoor and outdoor environments.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Airborne PM; TXRF; Pre-concentration; Lyophilization; Chemical analysis; Coriolis micro®
Elenco autori:
Bilo, F.; Borgese, L.; Fiorentini, S.; Bignotti, G.; Popescu, V. S.; Renzetti, S.; Roque, C.; Pinheiro, C. M.; Coutinho, P.; Placidi, D.
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