Protein immobilization on electrodes is a key concept in exploiting enzymatic processes for
bioelectronic devices. For optimum performance, an in-depth understanding of the enzyme …

The oxygen reduction reaction is the limiting step in fuel cells, and many works are in
progress to find efficient cathode catalysts. Among them, bilirubin oxidases are copper …

The immobilization of redox enzymes on electrodes enables the efficient and selective
electrocatalysis of useful reactions such as the reversible interconversion of dihydrogen (H2) …

The interaction of redox enzymes with electrodes is of great interest for studying the catalytic
mechanisms of redox enzymes and for bioelectronic applications. Efficient electron transport …

We have scaled down electrochemical assays of redox-active enzymes enabling us to study
small numbers of molecules. Our approach is based on lithographically fabricated Au …

Hydrogenases are a group of enzymes that have caught the interest of researchers in
renewable energies, due to their ability to catalyze the redox reaction of hydrogen. The …

Redox enzymes, which catalyze reactions involving electron transfers in living organisms,
are very promising components of biotechnological devices, and can be envisioned for …

Conspectus Protein film electrochemistry (PFE) is providing cutting-edge insight into the
chemical principles underpinning biological hydrogen. Attached to an electrode, many …

Highlights•New strategies for enzyme electrochemistry.•Recent applications of enzyme
electrochemistry.•Synergies of fundamental and applied enzyme electrochemistry.Redox …

Understanding the interaction and immobilization of [NiFe] hydrogenases on functionalized
surfaces is important in the field of biotechnology and, in particular, for the development of …