Biofunctionalised quantum dots for sensing and identification of waterborne bacterial pathogens

Abstract

Harmful bacteria are the most common cause of food-and waterborne illnesses. Infection often leads to bloody diarrhoea, and occasionally to kidney failure. Several strains of the bacteria Escherichia coli produce a powerful toxin which causes serious illness. Food and water can be contaminated with other bacteria like Salmonella, Coliform, Pseudomonas, etc. Hence, it has become important to rapidly detect and identify infectious bacteria. Colloidal luminescent semiconductor nanocrystals or quantum dots (QDs) have elicited a great deal of interest in the biosensing community due to their unique fluorescent properties. Here ZnS:Mn2 QDs are synthesised and biofunctionalised with chitosan. They are attached to the anionic cell wall of E. coli bacteria and different properties of this compound system are studied. These nanocrystals may offer cost effective and quicker alternative to detect single bacterium compared to other conventional methods. The process of the synthesis of QDs, biofunctionalisation and detection of bacteria have been characterised by XRD, UV-Vis spectroscopy, FTIR, photoluminescence spectroscopy, AFM, high-resolution transmission electron microscopy and confocal microscopy. The particle size calculated is approxi-mately 8-10 nm. The blue shift of PL peak has been observed after the bacteria get attached. © 2010 Taylor & Francis.