Issue 2, 2012

Label-free colorimetric sensing of cobalt(ii) based on inducing aggregation of thiosulfate stabilized gold nanoparticles in the presence of ethylenediamine

Abstract

As a sensitive and selective analytical technique, gold nanoparticles-based colorimetric sensing was characterized by its simplicity and cost-effectiveness. Specific methods have been extensively developed for different targets in diverse samples. In this study, a label-free method for sensing Co2+ in aqueous solutions was described. The target was achieved by the induced aggregation of thiosulfate (S2O32) stabilized gold nanoparticles (AuNPs) in the presence of ethylenediamine (en). Co2+ first reacted with en and formed complexes of Co(en)32+ in aqueous solutions, which was followed by the oxidation of Co(en)32+ to Co(en)33+ by dissolved oxygen. Co(en)33+ then attacked S2O32 ligands adsorbed on the AuNPs' surfaces, forming positively charged (en)2CoS2O3+ on the AuNPs' surfaces, which reduced the surface charges of AuNPs and induced the aggregation of AuNPs. The process was accompanied by a red-shift in the adsorption spectrum and a visible colour change from wine red to blue. Potential effects of relevant experimental conditions, including pH, concentrations of S2O32 and en, and incubation time were evaluated for optimization of the method. The proposed method is sensitive (LOD = 0.0 4 μM or 2.36 ppb) and selective (by at least 100-fold over other metal ions except for Cu2+) toward Co2+ with a linear range from 0.1 to 0.7 μM. The cost-effective method allows rapid and simple determination of the concentrations of Co2+ ions in drinking water.

Graphical abstract: Label-free colorimetric sensing of cobalt(ii) based on inducing aggregation of thiosulfate stabilized gold nanoparticles in the presence of ethylenediamine

Article information

Article type
Paper
Submitted
22 Sep 2011
Accepted
25 Oct 2011
First published
23 Nov 2011

Analyst, 2012,137, 400-405

Label-free colorimetric sensing of cobalt(II) based on inducing aggregation of thiosulfate stabilized gold nanoparticles in the presence of ethylenediamine

Z. Zhang, J. Zhang, T. Lou, D. Pan, L. Chen, C. Qu and Z. Chen, Analyst, 2012, 137, 400 DOI: 10.1039/C1AN15888K

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