Biosensors are devices which have the ability to recognize specific molecules (biomarkers) that indicate health conditions, such as cancer. They are made of two basic components: (i) a bioreceptor or biorecognition element; and (ii) a transducer element. The bioreceptor system interacts with the target analyte and this interaction is monitored by the transducer, which converts the information into a measurable effect such as an electrical, optical or mass-sensitive signal. The entire system, however, requires an electrical power generator, which limits its use.
The Symbiotic project aims to develop an autonomous electrochemical biosensor that is lightweight, disposable and low cost by using an innovative approach: hosting its bioreceptor element inside a passive direct methanol fuel cell (DMFC). This will allow to build an electrically independent, very simple, miniaturized, autonomous electrical biosensor. This work proposes a merge between electrical biosensors and fuel cells, combining the advantages of both areas of research in a single synergetic device.
In this envisaged innovative device, the electrical signal obtained from the DMFC is directly related to the concentration of the cancer biomarker in the sample analyzed. The proposed electrochemical biosensor will be completely autonomous, operating at room temperature and using the oxygen present in the air, thereby allowing diagnosis everywhere.