Mechanisms of Enzymatic Transduction in Nanochannel Biosensors

PEREZ SIRKIN, YAMILA A.; TAGLIAZUCCHI, MARIO; VIGIL DE MAIO, MANUEL

CHEMISTRY-AN ASIAN JOURNAL

WILEY-V C H VERLAG GMBH

Año: 2022 vol. 17

1861-4728

The immobilization of enzymes in solid-state nanochannels is a new avenue for the design of biosensors with outstanding selectivity and sensitivity. This work reports the first theoretical model of an enzymatic nanochannel biosensor. The model is applied to the system previously experimentally studied by Lin, et al. (Anal. Chem. 2014, 86, 10546): a hourglass nanochannel modified by glucose oxidase for the detection of glucose. Our predictions are in good agreement with experimental observations as a function of the applied potential, pH and glucose concentration. The sensing mechanism results from the combination of three processes: i) the establishment of a steady-state proton concentration gradient due to a reaction-diffusion mechanism, ii) the effect of that gradient on the charge of the adsorbed enzymes and native surface groups, and iii) the effect of the resulting surface charge on the ionic current. Strategies to improve the sensor performance based on this mechanism are identified and discussed.