Scanning electrochemical probe microscopy (SEPM) techniques can disclose the local
electrochemical reactivity of interfaces in single-entity and sub-entity studies. Operando …

Biomolecular electronics is a rapidly growing multidisciplinary field that combines biology,
nanoscience, and engineering to bridge the two important fields of life sciences and …

This review focuses on molecular ensemble junctions in which the individual molecules of a
monolayer each span two electrodes. This geometry favors quantum mechanical tunneling …

We review the status of protein-based molecular electronics. First, we define and discuss
fundamental concepts of electron transfer and transport in and across proteins and …

Multi-haem cytochromes are employed by a range of microorganisms to transport electrons
over distances of up to tens of nanometres. Perhaps the most spectacular utilization of these …

What is the conductance of a single molecule? This basic and seemingly simple question
has been a difficult one to answer for both experimentalists and theorists. To determine the …

Enzymatic biofuel cells (EBFCs) are a subgroup of fuel cells that use enzymes as catalysts.
EBFCs that utilize physiological substrates such as glucose or lactate are of great interest as …

Interfacial molecular electrochemistry is presently moving toward new levels of structural
and functional resolution, approaching even that of the single molecules. This evolution …

Hydrogenases catalyze the interconversion of protons and hydrogen according to the
reversible reaction: 2H++ 2e–⇆ H2 while using only the earth-abundant metals nickel and/or …

Electrocatalytic properties of biomimetic supported incomplete cubane-type [Mo3S4] 4+
clusters are investigated. The activity toward the hydrogen evolution reaction (HER) is …