An approach to measure trace elements in particles collected on fiber filters using EDXRF

ÖZTÜRK F., Zararsız A., Kırmaz R., TUNCEL S. G.

TALANTA, vol.83, no.3, pp.823-831, 2011 (Journal Indexed in SCI) identifier identifier identifier

  • Publication Type: Article / Article
  • Volume: 83 Issue: 3
  • Publication Date: 2011
  • Doi Number: 10.1016/j.talanta.2010.10.038
  • Title of Journal : TALANTA
  • Page Numbers: pp.823-831
  • Keywords: Energy dispersive x-ray fluorescence, Instrumental neutron activation analysis, Whatman-41, Airborne particles, Multi-element analysis, Method development, RAY-FLUORESCENCE ANALYSIS, ATMOSPHERIC AEROSOLS, MULTIELEMENTAL COMPOSITION, AIRBORNE PARTICLES, PARTICULATE MATTER, SAMPLES, STANDARDS, PIXE


A method developed for analyzes of large number of aerosol samples using Energy Dispersive X-Ray Fluorescence (EDXRF) and its performance were discussed in this manuscript. Atmospheric aerosol samples evaluated in this study were collected on cellulose fiber (Whatman-41) filters, employing a Hi-Vol sampler, at a monitoring station located on the Mediterranean coast of Turkey. between 1993 and 2001. Approximately 1700 samples were collected in this period. Six-hundred of these samples were analyzed by instrumental neutron activation (INAA), and the rest were archived. EDXRF was selected as an analytical technique to analyze 1700 aerosol samples because of its speed and non-destructive nature. However, analysis of aerosol samples collected on fiber filters with a surface technique such as EDXRF was a challenge. Penetration depth calculation performed in this study revealed that EDXRF can obtain information from top 150 mu m of our fiber filter material. Calibration of the instrument with currently available thin film standards caused unsatisfactory results since the actual penetration depth of particles into fiber filters were much deeper than 150 mu m. A method was developed in this manuscript to analyze fiber filter samples quickly with XRF. Two hundred samples that were analyzed by INAA were divided into two equal batches. One of these batches was used to calibrate the XRF and the second batch was used for verification. The results showed that developed method can be reliably used for routine analysis of fiber samples loaded with ambient aerosol. (C) 2010 Elsevier B.V. All rights reserved.