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The heavy metals pollution represents one of the important issues in the environmental field since they are involved in many pathologies from cancer, neurodegenerative and metabolic diseases. We propose an innovative portable biosensor for the determination of traces of trivalent Arsenic (AsIII) and bivalent mercury (HgII) in water. The system implements a strategy combining two advanced sensing modules consisting in (a) a whole cell based on engineered Escherichia coli as selective sensing element towards the metals and (b) an electrochemical miniaturised silicon device with three microelectrodes and a portable reading system. The sensing mechanism relies on the selective recognition from the bacterium of given metals producing the 4-aminophenol (PAP) redox active mediator detected through a cyclic voltammetry analysis. The miniaturized biosensor is able to operate a portable, robust and high-sensitivity detection of AsIII with a sensitivity of 0.122 µA ppb-1, LoD of 1.5 ppb and a LoQ of 5 ppb. The LoD value is one order of magnitude below of the value indicated to WHO to be dangerous (10 μg/L). The system was proved to be fully versatile being effective in the detection of Hg(II) as well. A first study on Hg(II) showed sensitivity value of 2.11 µA/ppb a LOD value of 0.1 ppb and LoQ value of 0.34 ppb. Also in this case, the detected LOD was ten time lower than that indicated by WHO (1 ppb). These results pave the way for advanced sensing strategies suitable for the environmental monitoring and the public safety.
Publication date: 
21 Sep 2020

Emanuele Luigi Sciuto, Salvatore Petralia, Janroelof van der Meer, Sabrina Conoci

Biblio References: 
Authorea Preprints