Kathleen E. Prosser scite author profile

Rapid and low overpotential oxidation of water to dioxygen remains a key hurdle for storage of solar energy. Here, we address this issue by demonstrating that deprotonation of 2-(2'-pyridyl)-imidazole (pimH)-ligated copper complexes promotes water oxidation at low overpotential and low catalyst loading. This improves upon other work on homogeneous copper-based water oxidation catalysts, which are highly active, but limited by high overpotentials. EPR and UV-vis spectroscopic evaluation of catalyst speciation shows that at pH ≥ 12 coordinated pimH is deprotonated and a bis(hydroxide) Cu active catalyst forms. Rapid electrochemical water oxidation (35 s, 0.85 V onset potential) was observed with 150 μM catalyst. These results demonstrate that catalytic water oxidation potentials can be shifted by hundreds of mV in homogeneous metal catalysts bearing an ionisable imidazole ligand.

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Anticancer copper pyridine benzimidazole complexes: ROS generation, biomolecule interactions, and cytotoxicity

Prosser

Chang

Saraci

et al. 2017

Journal of Inorganic Biochemistry

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Kathleen E. Prosser

Expanding medicinal chemistry into 3D space: metallofragments as 3D scaffolds for fragment-based drug discovery

Lowering water oxidation overpotentials using the ionisable imidazole of copper(2-(2′-pyridyl)imidazole)

Anticancer copper pyridine benzimidazole complexes: ROS generation, biomolecule interactions, and cytotoxicity

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