Abstract:
As the recent pandemic Covid-19 being passed, it leaves the importance of viral diagnostics matter
of fact in time factor as rapid detection as fast-growing as airborne. With previous molecular
methods such as RT-PCR, and ELISA the lagging was in rapid diagnostics, and with the growing
world miniaturization of electronic devices comes biosensors which are more rapid in diagnostics.
Piezo-electric transducer coupled with MEMS comes into the category of electromechanical
Biosensor.The designed model has electrodes to transmit output parameters, Transducers to
convert mechanical stress by virus analyte into electrical energy, and a cantilever beam to increase
the efficiency of the transducer via the coupling coefficient factor. Evaluated in terms of the
differently designed models with efficient output in terms of voltage, displacement, and stress are
being taken into consideration. Also, detection through resonance frequency has been taken as a
major factor for early detection. Which upon mechanical stress resonance frequency shifts and
detect the presence of the virus. With effective biosensor-designed models, detecting the SAR COV-2 virus and its variants would be used for rapid diagnosing. The piezoelectric effect is used
as a diagnosis principle where the mass of COVID-19 virion of mass (1 femto gram) is used as
mechanical stress which transduces the electric potential across the transducer.
