Biomimicking Hydrogen-Bonding Network by Ammoniated and Hydrated Manganese (II) Phosphate for Electrocatalytic Water Oxidation

Abstract: Asymmetric manganese cluster, the active center of photosystem II (PSII) in nature, is hydrogen-bonded to surrounding amino acid residues and water molecules. This phenomenon is of great inspiration significance for developing and studying artificial Mn-based oxygen evolution reaction (OER) catalysts. Herein, we prepared manganese phosphate nanosheets through intercalation of ethylenediamine ions and water molecules ((EDAI)(H2O)MnPi) using a simple coprecipitation method. (EDAI)(H2O)MnPi is also hydrogen-bonde… Show more

“…Besides, EIS tests show that the proton conductivity of the CoO-BP-RGO is bigger than that of CoO-RGO toward OER (Fig. S18), indicating that P-O bonds promote proton conduction in the electrocatalysis [57]. The combination of the pH dependence studies, EIS tests and DFT results supports our hypothesis that the P-O bond acts as a proton acceptor and promotes proton conduction.…”

Black phosphorus incorporated cobalt oxide: Biomimetic channels for electrocatalytic water oxidation

“…Besides, EIS tests show that the proton conductivity of the CoO-BP-RGO is bigger than that of CoO-RGO toward OER (Fig. S18), indicating that P-O bonds promote proton conduction in the electrocatalysis [57]. The combination of the pH dependence studies, EIS tests and DFT results supports our hypothesis that the P-O bond acts as a proton acceptor and promotes proton conduction.…”

Black phosphorus incorporated cobalt oxide: Biomimetic channels for electrocatalytic water oxidation

Next-Generation Green Hydrogen: Progress and Perspective from Electricity, Catalyst to Electrolyte in Electrocatalytic Water Splitting