Mishra, R.Ülker, E.Karadas, F.2018-04-122018-04-1220172196-0216http://hdl.handle.net/11693/36415Although cobalt-based heterogeneous catalysts are the central focus in water oxidation research, interest in copper-based water oxidation catalysts has been growing thanks the great abundance of copper and its biological relevance. Several copper oxides have recently been reported to be active catalysts for water oxidation. In this study, a heterogeneous copper-based water oxidation catalyst that is not an oxide has been reported for the first time. Single-crystal XRD studies indicate that the compound is a one-dimensional coordination compound incorporating copper paddle-wheel units connected through phosphine dioxide ligands. The catalyst exhibits an onset potential of 372 mV at pH 10.2, whereas an overpotential of only 563 mV is required to produce a current density of 1 mA cm−2. In addition to cyclic voltammetric and chronoamperometric studies, an investigation into the effect of pH on the catalytic activity and the robustness of the catalyst using long-term bulk electrolysis (12 h) is presented.EnglishX-ray diffractionCatalyst activityCatalystsCopperElectrocatalysisElectrocatalystsOxidationPhosphorus compoundsSingle crystalsWheelsX ray diffractionChronoamperometric studyCoordination compoundsCoordination PolymersHeterogeneous catalystPaddle wheelsPhosphine dioxideWater oxidationWater oxidation catalystsCopper compoundsOne-dimensional copper (II) coordination polymer as an electrocatalyst for water oxidationArticle10.1002/celc.201600518