bioelectrocatalysis

Bioelectrocatalysis is the use of biological catalysts to drive electron transfer and chemical transformations at an electrode interface. It combines biochemistry, electrochemistry, and materials science to exploit enzymes, whole cells, and other biomolecules to perform redox reactions under mild, aqueous conditions. In bioelectrocatalysis, an electrode either accepts electrons from a biological catalyst or donates electrons to it, enabling applications in sensing and energy conversion.

Biocatalysts include oxidoreductase enzymes (for example glucose oxidase, laccase, hydrogenases, and dehydrogenases), as well as microorganisms

Technologies in the field involve immobilization of biocatalysts on conductive supports such as carbon nanotubes, graphene,

Applications include biosensing (e.g., glucose, lactate, hydrogen peroxide detection) and bioelectrochemical energy systems such as enzymatic

Challenges include stability and deactivation of biocatalysts, fouling, mass transport limitations, and reproducibility, as well as