Eismann C. E., Menegario A. A., de Oliveira E. G., Elias L. P., Viana J. L. M., Zanatta M. B. T., Barbiéro Laurent, Fostier A. H. (2023). A simple, green and low-cost agarose-based binding layer for simultaneous determination of cations and anions in aquatic systems using DGT. Analytical Methods, 15, p. 3310-3317. ISSN 1759-9660.
Titre du document
A simple, green and low-cost agarose-based binding layer for simultaneous determination of cations and anions in aquatic systems using DGT
Année de publication
2023
Auteurs
Eismann C. E., Menegario A. A., de Oliveira E. G., Elias L. P., Viana J. L. M., Zanatta M. B. T., Barbiéro Laurent, Fostier A. H.
Source
Analytical Methods, 2023,
15, p. 3310-3317 ISSN 1759-9660
The diffusive gradients in thin films (DGT) technique pre-concentrates labile species of trace elements, giving time-integrated in situ information about their labile concentrations. All previous DGT approaches for simultaneous uptake of cations and anions have used the hazardous polyacrylamide reagent to immobilize the binding phase. The present work proposes a diffusive layer of agarose and a mixed binding layer of ZrO2 and Chelex 100 immobilized in an agarose hydrogel to simultaneously determine the labile concentration of cations (Mn, Co, Ni, Cu, Zn and Cd) and anions (V, As, Se, Mo and Sb) in aquatic systems. The use of both layers using agarose instead of carcinogenic polyacrylamide as the hydrogel significantly reduces the costs and simplifies the manufacturing process. The proposed device was evaluated through recovery tests, deployment curves and pH/ionic strength tests. The mixed binding layer was compared with commercially available DGT devices for in situ deployment in river water. The relationships between accumulated mass and time (24 h) was linear (r(2) > 0.9) for all analytes. The diffusion coefficients obtained were consistent with the literature, ranging from 3.98 to 8.43 x 10(-6) cm(2) s(-1). Except for Zn at pH 8.0, the obtained values of C-DGT/C-bulk were within the range of 1.00 & PLUSMN; 0.2 for the studied range of pH and for most ionic strengths. However, at low ionic strength, the concentrations of Mn, Co, Ni, Zn, V and Mo were underestimated. The concentrations of trace elements determined in river water using the proposed devices agreed with the labile concentrations determined by using commercial devices.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020]
;
Hydrologie [062]
Localisation
Fonds IRD [F B010088223]
Identifiant IRD
fdi:010088223
