Analytical capabilities of laboratory, benchtop and handheld X-ray fluorescence systems for detection of metals in aqueous samples pre-concentrated with solid-phase extraction disks
- 作者:E. Marguí ; a ; eva.margui@udg.edu ; M. Hidalgoa ; I. Queraltb ; K. Van Meelc ; C. Fontà ; sa
- 关键词:Metal ; Pre-concentration ; Aqueous sample ; XRF ; Extraction disk
- 刊名:Spectrochimica Acta Part B ; Atomic Spectroscopy
- 出版年:2012
- 期刊代码:101_05848547
- 类别:ch
- 出版时间:January, 2012
- 卷:67
- 期:Complete
- 页码:17-23
- 文件大小:446 K
摘要
We aimed to achieve improved instrumental sensitivity and detection limits for the analysis of several elements (Cu, Ni, Zn, Pb and Cd) in aqueous samples with energy dispersive X-ray fluorescence spectrometry (EDXRF). The metals were pre-concentrated from aqueous solutions using commercially available organic-based solid-phase extraction (SPE) disks functionalized with iminodiacetate groups. These thin-layer organic materials provide an ideal support for XRF analysis. The elements were collected on the SPE extraction disks using a simple filtration procedure (starting with 1 L of aqueous sample) that allows direct XRF measurements to be performed in the field (in situ). We evaluated the analytical possibilities and drawbacks of using this pre-concentration procedure in combination with the following XRF configurations: a handheld unit, a benchtop EDXRF system and a high-energy polarized-beam EDXRF instrument (HE-P-EDXRF). Using the HE-P-EDXRF system, the detection limits for all metals were more than one order of magnitude lower than those attained using handheld and benchtop EDXRF instrumentation. For the detection of metal concentrations higher than ~ 20 渭g/L, however, handheld or benchtop systems remain a very good option due to their extreme simplicity of operation and low-cost, compact design.
We demonstrate the application of these methodologies, using the three equipment systems, to the analysis of trace concentrations of metals in different types of aqueous samples, including tap water and waste water.