Abstract

An electrochemical immuno-biosensor based on Ag 2 S/DMSNs labels was established to detect S. aureus . • An electrochemical immuno-biosensor based on Ag 2 S/DMSNs labels was established to detect S. aureus . • Using DMSNs for Ag 2 S QDs enrichment and signal amplification to improve the detection sensitivity. • A wide linear detection range from 10 to 10 8 CFU mL −1 , with a detection limit of 2 CFU mL −1 . • The immuno-biosensor showed excellent selectivity and stability. • The immuno-biosensor was successfully applied to detect actual samples. Developing novel signal amplification labels in electrochemical immuno-biosensors for ultrasensitive, fast and selective detection of foodborne pathogen is urgent and significant for people's health and life safety. Herein, dendritic mesoporous silica nanospheres (DMSNs) loaded with silver sulfide quantum dots (Ag 2 S QDs) were fabricated and employed as signal amplification labels for highly sensitive electrochemical detection of Staphylococcus aureus ( S. aureus ). DMSNs were treated with 3-aminopropyltrioxysilane to introduce amino group on surfaces to facilitate the immobilization of Ag 2 S QDs. Benefiting from the highly accessible surface areas and large pore channels characteristics given by the unique radial flower-like structure of DMSNs, large amount of Ag 2 S QDs were loaded into the surfaces and pores of the DMSNs to form Ag 2 S/DMSNs. To specifically recognize S. aureus cells, Ag 2 S/DMSNs were modified by anti- S. aureus antibody (Ab) to form Ab-Ag 2 S/DMSNs. When the sandwich-type electrochemical immuno-biosensor operated, Ag(Ⅰ) ions were released from the Ag 2 S/DMSNs label by HNO 3 leaching, and the detection of S. aureus was realized by the differential pulse voltammetry. The electrochemical signal of the prepared immuno-biosensor was substantially magnified when compared to the immuno-biosensor employing Ag 2 S QDs as signal label, since much more Ag 2 S QDs were labeled to each bacterial cell due to the high loading of Ag 2 S QDs on the DMSNs. As a consequence, the developed immuno-biosensor was capable of detecting S. aureus cells down to a limit of 2 colony forming units per mL (CFU mL −1 ) and exhibited a wide linear detection range from 10 CFU mL −1 to 10 8 CFU mL −1 . In addition, the immuno-biosensor showed excellent selectivity and stability for the detection of S. aureus , and was successfully applied to detected S. aureus in milk samples.

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