Reusable Electronic Tongue Based on Transient Receptor Potential Vanilloid 1 Nanodisc‐Conjugated Graphene Field‐Effect Transistor for a Spiciness‐Related Pain Evaluation

The sense of spiciness is related to the stimulation of vanilloid compounds contained in the foods. Although, the spiciness is commonly considered as the part of taste, it is more classified to the sense of pain stimulated on a tongue, namely, pungency, which is described as a tingling or burning on the tongue. Herein, first, a reusable electronic tongue based on a transient receptor potential vanilloid 1 (TRPV1) nanodisc conjugated graphene field‐effect transistor is fabricated and spiciness‐related pain evaluation with reusable electrode is demonstrated. The pungent compound reactive receptor TRPV1 is synthesized in the form of nanodiscs to maintain stability and reusability. The newly developed platform shows highly selective and sensitive performance toward each spiciness related vanilloid compound repeatably: 1 aM capsaicin, 10 aM dihydrocapsaicin, 1 fM piperine, 10 nM allicin, and 1 pM AITC. The binding mechanism is also examined by simulation. Furthermore, the elimination of the burning sensation on the tongue after eating spicy foods is not investigated. Based on the synthesis of micelles composed of casein protein (which is contained in skim milk) that remove pungent compounds bound to TRPV1 nanodisc, the deactivation of TRPV1 is investigated, and the electrode is reusable that mimics electronic tongue. The pain‐related receptor transient receptor potential vanilloid 1 is activated by noxious stimuli such as chemical, physical, and thermal stimuli. The stimuli of pungent compounds induce a sensation of burning or prickling of the tongue. To verify reversible TRPV1 activation to pungent materials, a reusable electronic tongue based on TRPV1 nanodisc conjugated graphene field‐effect transistor is presented.