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Accurate standard‐based quantification of X‐ray fluorescence data using metal‐contaminated plant tissue
Author(s) -
CamarilloRavelo Dante,
Kaftandjian Valérie,
Duvauchelle Philippe
Publication year - 2010
Publication title -
x‐ray spectrometry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.447
H-Index - 45
eISSN - 1097-4539
pISSN - 0049-8246
DOI - 10.1002/xrs.1283
Subject(s) - x ray fluorescence , calibration , calibration curve , compton scattering , fluorescence , monte carlo method , analytical chemistry (journal) , cadmium , scattering , photon , linearity , matrix (chemical analysis) , optics , contamination , physics , chemistry , materials science , detection limit , chromatography , mathematics , ecology , statistics , quantum mechanics , biology , organic chemistry
Quantitative X‐ray fluorescence (XRF) measurements have been conducted on naturally lead‐contaminated samples. The calibration procedure using the ratio of fluorescence to Compton scattered radiation was investigated using Monte Carlo simulation. Experimental results with low‐energy photons (14 keV) and simulations show a very good linearity of the fluorescence to Compton ratio as a function of metal concentration. Lead (Pb), iron (Fe) and zinc (Zn) are measured in samples of Phaseolus vulgaris (bean seeds) that have been grown using a nutritive solution with different Pb dopings. Naturally contaminated samples are thus obtained. The calibration must be done for fixed conditions of X‐ray energy and scattering angle, while X‐ray beam intensity and detector to sample distance can change from one sample to another. Simulation allows to evaluate the matrix effect on the calibration curve, and shows that linearity is preserved even in the presence of other heavy elements in the fluorescence spectrum. However, calibration must be done using samples with similar matrix as it affects the slope of the curve. Copyright © 2010 John Wiley & Sons, Ltd.

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