Abstract
A method to fabricate a bioinspired nanobiosensor using electronic-based artificial taste receptors for glucose diagnosis is presented. Fabricated bioinspired glucose nanobiosensor designated based on an artificial taste bud including an amperometric glucose biosensor and taste bud-inspired circuits. In fact, the design of the taste bud-inspired circuits was inspired by the signal-processing mechanism of taste nerves which involves two layers. The first, known as a type II cell, detects the glucose by glucose oxidase and transduces the current signal obtained for the pulse pattern is conducted to the second layer, called type III cell, to induce synchronisation of the neural spiking activity. The oscillation results of fabricated bioinspired glucose nanobiosensor confirmed an increase in the frequency of the output pulse as a function of the glucose concentration. At high glucose concentrations, the bioinspired glucose nanobiosensor showed a pulse train of alternating short and long interpulse intervals. A computational analysis performed to validate the hypothesis, which was successfully reproduced the alternating behaviour of bioinspired glucose our nanobiosensor by increasing the output frequency and alternation of pulse intervals according to the reduction in the resistivity of the biosensor.
Highlights
To date, electronic-based artificial taste receptors for the electronic tongue developments are only based on human operator experience
The behaviour displayed by the mathematical model corresponded with the experimental observations. This confirmed that normal periodic pulses were achieved when the resistance of the glucose biosensor was higher than the required resistance for the alternate-pulse variation in the pulse frequency
The characteristics of the glucose oxidase (GOx)/MWCNTs/Gl glassy carbon electrode (GCE) at optimal conditions were investigated by chronoamperometric measurement[17]
Summary
A method to fabricate a bioinspired nanobiosensor using electronic-based artificial taste receptors for glucose diagnosis is presented. Fabricated bioinspired glucose nanobiosensor designated based on an artificial taste bud including an amperometric glucose biosensor and taste bud-inspired circuits. A continuous pulse was generated by a combination of the fabricated glucose biosensor and taste bud-inspired circuits. The high glucose concentration caused an alternate-pulse variation in interpulse intervals This finding was theoretically reconfirmed by a computational model with the given resistance values as a function of the amount of glucose added to the electrochemical cell. The behaviour displayed by the mathematical model corresponded with the experimental observations This confirmed that normal periodic pulses were achieved when the resistance of the glucose biosensor was higher than the required resistance for the alternate-pulse variation in the pulse frequency. Normal periodic pulses were achieved in the optimal resistance range, whereas an alternating pulse frequency arises as a consequence of the dynamic instability of the glucose biosensor
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