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Abstract The work is devoted to the analysis of the state of the Fe(III) ions in aqueous solutions of graphene oxide (GO) using NMR-relaxation method. The presence of graphene oxide… Click to show full abstract
Abstract The work is devoted to the analysis of the state of the Fe(III) ions in aqueous solutions of graphene oxide (GO) using NMR-relaxation method. The presence of graphene oxide in solution suppresses the hydrolysis of Fe(III) in a wide pH range, and provides high values of the spin-spin relaxivity of the Fe(III)-GO system. Experiments with varying concentrations of Fe (III) and GO demonstrate the presence of the two types of the sites on GO surface: the A-type sides that strongly bind cations (the source of high relaxivity), and the B-type sites, weakly binding cations (providing lower relaxivity). Addition of the single charged (Cs+, Na+) or double charged (Sr2+) cations to the Fe(III)-GO solutions leads to a decrease in relaxivity due to the displacement of the Fe(III) ions from A to B-type sites with the Na+
Journal Title: Journal of Molecular Liquids
Year Published: 2020
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