Calculating Electrochemical Activity of Regular-Structure Porous Electrodes with an Immobilized Enzyme

A porous electrode of regular structure with an immobilized enzyme is studied. The electrode carcass, which consists of substrate particles, is a system of two sets of mutually perpendicular planes crossing one another (cellular structure). A monomolecular layer of enzyme molecules is deployed on the inner surface of such a porous substrate. In the center of each cell of the substrate gas pores, which are cylinders of porous grains of a hydrophobizing agent one grain thick, are situated. The rest of the cell space is filled by a solid polymer electrolyte. The ultimate goal of calculations is to estimate the electrochemical activity of such an electrode. The estimation is done for an oxygen electrode with an enzyme whose characteristics are close to those of laccase. The calculation assumes that active centers of enzyme molecules undergo a direct, i.e. without participation of mediators, reduction. It is shown that at an overvoltage of 30 mV, it would be possible to obtain a current density of 0.44 A cm^–2 in an electrode 16 m thick.