Electrokinetic characterization of magnetite nanoparticles functionalized with amino acids

The synthesis of nanoparticles consisting of a magnetite core coated with one or more layers of amino acid (l-arginine, l-lysine, glycine, and l-glutamine) is described in this paper. For all the amino acids it is found that adsorption increases with concentration in solution in the range 0.5–10 mg/mL. The adsorption, however, differs substantially from one amino acid to another, depending on the length of the hydrocarbon chain and the polarity and charge of the side group. Thus, for given concentration and pH, adsorption is found to increase in the order l-arginine < l-lysine < l-glutamine < glycine. This order corresponds roughly to amino acids with decreasing chain length; in addition, the presence of the less polarizable guanidine group in the arginine molecule may explain why this amino acid is slightly less adsorbed than lysine. The pH dependence of the adsorption of each amino acid is reasonably explained considering the surface charge of magnetite and the charge of the amino acid molecules for different pHs, indicating a significant role of electrostatics in adsorption. This is further checked by means of determinations of the electrophoretic mobility of amino acid-coated magnetite as a function of pH: the results indicate a shift of the isoelectric point of the raw magnetite toward more basic pHs, an indication of adsorption of positive species, as confirmed by the tendency of the mobility of amino acid-coated magnetite toward more positive values below neutral pH. The electrophoretic mobility of coated particles was also measured as a function of the concentration of amino acid, and it was found that for low concentrations the four amino acids provoke charge inversion and overcharging of the magnetite surface at pH 6. Finally, the dependence of the electrophoretic mobility on the ionic strength indicated that from an electrophoretic point of view, the functionalized magnetite–amino acid particles do not behave as soft particles, and that the amino acid coating should be very compact.

Composition of the colored-ninhydrin supernatants corresponding to the magnetite–amino acid mixtures for different pHs and concentrations of amino acid. Examples of the original amino acid solutions are displayed in the row labeled REF.Figure optionsDownload high-quality image (77 K)Download as PowerPoint slide