An electrochemical microfluidic biochip for the detection of gliadin using MoS/graphene/gold nanocomposite.

Testing gluten content in food, before it reaches the consumer, becomes a major challenge where cross-contamination during processing and transportation is a very common occurrence. In this study, a microfluidic electrochemical aptasensing system for the detection of gliadin has been proposed. The fabrication of the sensor involves its modification by using a combination of 2D nanomaterial molybdenum disulfide (MoS)/graphene with the addition of gold (Au) nanoparticles. Aptamers, a short string of nucleotide bases that are very specific to gliadin, were used in this sensor as the biomarker. The electrochemical standard reduction potential of the ferro-ferricyanide indicator was found to be ~ 530 mV. This setup was integrated with a unique polydimethylsiloxane (PDMS)-based flexible microfluidic device for sample enrichment and portability. The results of this sensor show that the limit of detection was 7 pM. The total sample assay time was 20 min and a good linear range was observed from 4 to 250 nM with an R value of 0.982. Different flour samples sourced from the local market were tested and interfering molecules were added to ensure selectivity. The study shows promise in its applicability in real-time gliadin detection.Graphical abstract.