Yasaman-Sadat Borghei, Morteza Hosseini* and Mohammad Reza Ganjali Pages 610 - 615 ( 6 )
Background: Gold nano-clusters (Au-NCs) are non-toxic bio–markers, with higher potentials as compared to quantum dots, and hence the present work was focused on the synthesis of Au- NCs using Cysteine (Cys) as the reducing and protecting agent.
Method: The properties of the resulting Cys-Au-NCs were evaluated through scanning electron microscopy (SEM), as well as FT-IR, fluorescence and UV–Vis spectroscopy. Synthesis of the gold nano-clusters was conducted by adding chloroauric acid solution to fresh Cys solutions under stirring. The resultant was kept under stirring in a water bath at 37 °C overnight.
Objectives: Considering the low stability of Cys-CuNCs, we decided to study a new approach for determination of Cys through the synthesis of size-selected Au-NCs in the presence of cysteine as a reducing and stabilizing agent, to acquire nanoclusters with higher stability.
Results: The spectroscopic results showed various intensities which were attributed to the size of the Cys-Au-NCs. It was also considered that the enhanced fluorescence intensity of Au-NCs observed parallel to increasing the concentration of cysteine could be used for developing proper detection systems for cysteine in aqueous and blood serum samples. This was achieved in the course of the formation of different Cys-Au-NCs with various sizes. Under optimal conditions, the nano-clusters was used as a nano-biosensor and showed excellent selectivity for Cysteine as opposed to the other amino acids tested and produced linear response in the range of 20 to 200 µM. The detection limit of the system was evaluated to reach as low as 8.4 µM.
Conclusion: Cysteine-stabilized Au-NCs were successfully synthesized and were found to be stable in aqueous media even after 6 months. Results of the fluorescence emission of the Cys-Au-NCs was found to be selective towards Cys. The nano-biosensor was also successfully used in serum samples for Cys detection.
Gold, nano-cluster, cysteine, fluorescence, nanobiosensor, enhanced.
Department of Life Science Engineering, Faculty of New Sciences & Technologies, University of Tehran, Tehran, Department of Life Science Engineering, Faculty of New Sciences & Technologies, University of Tehran, Tehran, Center of Excellence in Electrochemistry, Faculty of Chemistry, University of Tehran, Tehran