Nanoplatinum-enclosed gold nanocores as catalytically promoted nanolabels for sensitive electrochemical immunoassay

Abstract

Here we designed a new electrochemical immunoassay protocol for determination of carcinoembryonic antigen (CEA) using nanoplatinum-enclosed gold nanocores (Pt@Au) as catalytically promoted nanolabels on the carbon nanospheres and graphene-modified immunosensor. The Pt@Au nanolabels were synthesized and functionalized with monoclonal anti-CEA antibodies and glucose oxidase (GOx). Using the functional Pt@Au nanolabels as molecular tags, the assay was implemented relative to glucose–hydroquinone system with a sandwich-type immunoassay. Initially, the added glucose was oxidized to gluconolactone and H2O2 by the labeled GOx, and then the generated H2O2 was reduced with the help of platinum nanoparticles, leading to the production of oxygen. The self-produced oxygen could promote the re-oxidation of the glucose, thus resulting in the dual amplification of the electrochemical signal. Several nanolabels, such as multiarmed star-like platinum nanowires, hollow platinum nanospheres and Pt@Au nanostructures, were investigated for CEA detection and improved analytical features were obtained with the Pt@Au nanostructures. Under optimal conditions, the Pt@Au-based immunoassay displayed a wide working range from 0.001 to 120ngmL−1 with a low detection limit of 0.5pgmL−1 CEA at 3sB. Intra- and inter-assay coefficients of variation were <10.9%. The system was evaluated with 10 clinical serum samples, receiving good accordance with results from enzyme-linked immunosorbent assay method.