Szabina Török scite author profile

A new quantification procedure was developed for the evaluation of X-ray microfluorescence (XRF) data sets obtained from individual particles, based on iterative Monte Carlo (MC) simulation. Combined with the high sensitivity of synchrotron radiation-induced XRF spectroscopy, the method was used to obtain quantitative information down to trace-level concentrations from micrometer-sized particulate matter. The detailed XRF simulation model was validated by comparison of calculated and experimental XRF spectra obtained for glass microsphere standards, resulting in uncertainties in the range of 3-10% for the calculated elemental sensitivities. The simulation model was applied for the quantitative analysis of X-ray tube and synchrotron radiation-induced scanning micro-XRF spectra of individual coal and wood fly ash particles originating from different Hungarian power plants. By measuring the same particles by both methods the major, minor, and trace element compositions of the particles were determined. The uncertainty of the MC based quantitative analysis scheme is estimated to be in the range of 5-30%.

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Recognition of uranium oxides in soil particulate matter by means of μ-Raman spectrometry

Stefaniak

Alsecz

Sajó

et al. 2008

Journal of Nuclear Materials

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Characterisation of wood combustion particles using electron probe microanalysis

Osán

Alföldy

Török

et al. 2002

Atmospheric Environment

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Szabina Török

Heavy metals in Lake Balaton: water column, suspended matter, sediment and biota

Quantitative Trace Element Analysis of Individual Fly Ash Particles by Means of X-ray Microfluorescence

Recognition of uranium oxides in soil particulate matter by means of μ-Raman spectrometry

Characterisation of wood combustion particles using electron probe microanalysis

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