While hydrogen plays an ever-increasing role in modern society, nature has utilized
hydrogen since a very long time as an energy carrier and storage molecule. Among the …

Recently, substantial efforts had been made in the field of synthetic iron compounds as
structural and functional models of the hydrogenase enzyme active site for the purpose of …

Interface science has become a key aspect for fundamental research questions and for the
understanding, design, and optimization of urgently needed energy and information …

This perspective aims at illustrating a computational viewpoint on some specific issues
concerning structure–activity relationships related to [FeFe]-hydrogenase ([FeFe]-H2ase) …

X-ray absorption near-edge structure (XANES) spectroscopy is widely used across the
natural sciences to obtain element specific atomic scale insight into the structure of matter …

The photophysical and electrochemical properties of the diiron hydrogenase mimic
complex,[Fe 2 (dpet)(CO) 6](dpet= 1, 2-diphenylethene-1, 2-dithiol) have been studied using …

Three hexacarbonyl diiron dithiolate complexes [Fe2 (CO) 6 (μ‐(SCH2) 2X)] with different
substituted bridgeheads (X= CH2, CEt2, CBn2 (Bn= CH2C6H5)), have been studied under …

The synthesis and electrochemical properties of tetranuclear [Fe2S2]-hydrogenase mimic
species containing Pt (II), Ni (II), and Ru (II) complexes have been studied. To this end, a …

The diiron benzenedithiolato carbonyl complex is a biomimetic catalyst for proton reduction
whose catalytic pathways depend on the solvent properties and the proton donor acidity …

Abstract [FeFe] hydrogenase (H2ase) mimicking complexes containing lipoic and
selenolipoic acid moieties connected to 2‐hydroxy‐1, 3‐dithiopropane and 2‐hydroxy‐1, 3 …