Multilayered or stacked lipid membranes are a common principle in biology and have
various functional advantages compared to single‐lipid membranes, such as their ability to …

Oxygen-tolerant [NiFe] hydrogenases are metalloenzymes that represent valuable model
systems for sustainable H2 oxidation and production. The soluble NAD+-reducing [NiFe] …

The H2-evolving potential of [FeFe] hydrogenases is severely limited by the oxygen
sensitivity of this class of enzymes. Recent experimental studies on hydrogenase from C …

Abstract The reaction of 1, 3-bis [(4-chloro) benzene] triazene (HL) and CuCl 2· 2H 2 O
affords a dinuclear triazenido–copper (II) complex [Cu 2 L 4 (NCCH 3)](1), a new molecular …

Hydrogenases are nature's catalysts designed to extract protons from molecular hydrogen
(H2) thereby forming a reactive hydride species (H−). Those enzymes capable of catalyzing …

Surface-enhanced infrared absorption spectroscopy is used in situ to determine the
electrochemical stability of organic interfaces deposited onto the surface of nanostructured …

We report the first direct electrochemical characterization of the impact of oxygen on the
hydrogen oxidation activity of an oxygen-tolerant, group 3, soluble [NiFe]-hydrogenase …

Abstract 'Oxygen-tolerant'[NiFe]-hydrogenases can catalyze H 2 oxidation under aerobic
conditions, avoiding oxygenation and destruction of the active site. In one mechanism …

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 …

We report here that a bioinspired cobalt diimine–dioxime molecular catalyst for hydrogen
evolution immobilized onto carbon nanotube electrodes proves tolerant toward oxygen. The …