X-ray-Fluorescence-Based Screening Method for Uranium in Contaminated Brackish Water Using Graphene Oxide Nanosheets

Abstract: In the event of uranium release into the environment due to an accident, confirming the presence of uranium contamination is difficult because uranium is a naturally occurring element. In this study, we developed a method based on X-ray fluorescence (XRF) for the facile screening of uranium in brackish water samples in the event of an accident in a coastal area. Graphene oxide nanosheets were added to uncontaminated brackish water sampled from different sites to adsorb the uranium present in the samples, if an… Show more

“…Paper [ 6 ] was devoted to the possibility of using the sorption properties of oxidized graphene flakes with respect to uranium in order to accurately quantify its concentration in water. The authors developed a method based on X-ray fluorescence for the facile screening of uranium in brackish water samples.…”

Graphene Oxide Membranes—Synthesis, Properties, and Applications

“…Paper [ 6 ] was devoted to the possibility of using the sorption properties of oxidized graphene flakes with respect to uranium in order to accurately quantify its concentration in water. The authors developed a method based on X-ray fluorescence for the facile screening of uranium in brackish water samples.…”

Graphene Oxide Membranes—Synthesis, Properties, and Applications

Determination of uranium in water samples by energy-dispersive X-ray fluorescence spectrometry after solid-phase extraction

Separation of the U Lα Peak by Fitting in EDXRF Spectra