Effect of the nature of carbonaceous supports on the bioelectrocatalytic activity of peroxidase, immobilized on the supports, in the hydrogen peroxide reduction reaction

Abstract

Electrochemical properties of such disperse carbonaceous materials as acetylene black AD-100, finely divided colloidal graphite (FCG), ultradisperse diamond (UDD), and carbon nanotubes (CNT) are examined. Effect of the nature of disperse carbonaceous supports on bioelectrocatalytic activity of adsorbed peroxidase (POD) in the hydrogen peroxide reduction reaction is investigated. It is shown that the hydrogen peroxide reduction on the biocatalysts studied proceeds in conditions of direct bioelectrocatalysis independently of the disperse-support type. It is also demonstrated that the biocatalysts’ activity depends on the structure and properties of the surface of the supports defining the magnitude of the POD adsorption in an orientation favorable for direct bioelectrocatalysis. Maximum activity is inherent in the catalysts manufactured on the basis of materials with moderate hydrophobic and hydrophilic properties. By the magnitude of the activity in the hydrogen peroxide reduction reaction, depending on the nature of the carbonaceous support, the fabricated catalysts (carbonaceous material with adsorbed POD) form the series AD-100, CNT > FCG > UDD.