Hydrogen fuel electrode based on bioelectrocatalysis by the enzyme hydrogenase

Abstract Our aim is to show, that the enzymes as electrocatalysts are able to improve the performance characteristics of the fuel cells. The hydrogen fuel electrode based on hydrogenase from Thiocapsa roseopersicina immobilized directly on carbon filament material has been made. The enzyme electrode has operated according to electron tunneling between the enzyme active site and the electrode support; this mechanism is called direct bioelectrocatalysis. Under pure hydrogen the efficiencies in energy conversion of the enzyme electrode and the noble metal based commercial fuel electrode are similar concerning both the hydrogen equilibrium potential achieved and the current densities in H2 oxidation. However, the use of the enzyme electrodes completely avoids the problem of poisoning the anode by the impurities of carbon monoxide present in reforming gas, which limits the use of cheap hydrogen containing fuel. The stability of the biological catalysts can be drastically improved by their immobilization on electrode supports, which provide the development of commercially competitive biofuel cells.