The kinetics and mechanisms of thermal and photochemical oxidation of water with
homogeneous and heterogeneous catalysts, including conversion from homogeneous to …

Water oxidation (WO) is considered the ideal reaction to provide electrons and protons for
the photo‐and electrosynthesis of renewable fuels, generating exclusively O2 as a benign …

Electrochemical water oxidation is the bottleneck of electrolyzers as even the best catalysts,
iridium and ruthenium oxides, have to operate at significant overpotentials. Previously, the …

The complex [Cp* Ir (pica) Cl](1; pica= picolinamidate= κ2-pyridine-2-carboxamide) was
found to be an effective catalyst for both water oxidation to molecular oxygen and …

The development of an efficient water oxidation catalyst is crucial in the framework of
constructing an artificial photo (electro) synthetic apparatus for the production of solar fuels …

Activating molecular catalysts at the surface of metal oxides can be a promising strategy to
overcome the sluggish interfacial kinetics and enhance the efficiencies for photo (electro) …

Light-driven water oxidation is achieved with the Ru (bpy) 32+/S2O82–cycle employing the
highly active Ir-blue water oxidation catalyst, namely, an IrIV, IV2 (pyalc) 2 μ-oxo-dimer …

The substitution behavior of the monodentate Cl ligand of a series of ruthenium (II)
terpyridine complexes (terpyridine (tpy)= 2, 2′: 6′, 2′′‐terpyridine) has been …

A Ru (bda) L 2 molecular catalyst (H 2 bda= 2, 2′-bipyridine-6, 6′-dicarboxylic acid, L
represents ligands) was incorporated into a UiO-66 metal-organic framework (MOF) as …

Iridium complexes bearing pyridine triazolylidene ligands with variable steric hindrance,
derived by the presence of an R group (R= H, Me, Et, nPr, iPr, Bu, and Oct) onto the N1 …