Designing advanced electrocatalysts for the oxygen evolution reaction(OER)is of great significance owing to its crucial role in facilitating the production of clean hydrogen energy via water splitting.To date,it has been widely accepted that a pre-oxidation process with the in-situ generation of the catalytically active high-valence metal sites is essential for promoting the OER behavior of most transition-metal-based OER catalysts,or more felici-tously speaking,pre-catalysts.Hence,exploring such pre-catalysts with high pre-oxidation reactivity is of high promise.Herein,we proposed the dual elemental modulation in the cationic and anionic sites of the multi-metal Prussian blue analogue(PBA)pre-catalysts,resulting in promoted OER behavior benefitted from the efficient pre-oxidation ability as well as the multi-metal synergy.Detailed investigations indicate that the Co-containing multi-metallic cations and mixed FeⅢCoⅢ cyanide anions in NiCuCoⅡ-FeⅢCoⅢ PBA(denoted as NiCuCoⅡ-FeⅢCoⅢ)are beneficial to OER catalysis owing to the high intrinsic activity guaranteed by the local Co3+active sites as well as the optimal multi-metal synergy.After the facile pre-oxidation process,additional high-valence Ni,Cu and Fe ions can be in-situ formed and serve as the active sites,thereby resulting in significantly improved OER behavior.For example,the OER current density of NiCuCoⅡ-FeⅢCoⅢ exhibits 1.81 times enhancement even after 72 h continuous OER catalysis,and the required overpotential for 10 mA cm-2 reduces from 288 mV for the fresh pre-catalyst to a remarkable record of 251 mV after the pre-oxidation-induced activation,making the optimal PBA-based catalyst a promising candidate for efficient and durable water electrolysis.

Jun Li;Min Guo;Xue Yang;Jiale Wang;Kexin Wang;Anran Wang;Fengcai Lei;Pin Hao;Junfeng Xie;Bo Tang

College of Chemistry,Chemical Engineering and Materials Science,Key Laboratory of Molecular and Nano Probes(Ministry of Education),Collaborative Innovation Center of Functionalized Probes for Chemical Imaging in Universities of Shandong,Institute of Molecular and Nano Science,Shandong Normal University,Jinan,Shandong,250014,PR China

自然科学进展·国际材料（英文）

[1]Jun Li;Min Guo;Xue Yang;Jiale Wang;Kexin Wang;Anran Wang;Fengcai Lei;Pin Hao;Junfeng Xie;Bo Tang-.Dual elemental modulation in cationic and anionic sites of the multi-metal Prussian blue analogue pre-catalysts for promoted oxygen evolution reaction)[J].自然科学进展·国际材料（英文）,2022(06):705-714

felici,NiCuCo,Co3+active

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