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Constructing Electrocatalysts with Composition Gradient Distribution by Solubility Product Theory: Amorphous/Crystalline CoNiFe‐LDH Hollow Nanocages

Jiashun Wu, Tong Yang, Rong Fu, Min Zhou, Lixue Xia, Zhaoyang Wang, Yan Zhao

2023Advanced Functional Materials58 citationsDOI

Abstract

Abstract Transition‐metal based layered doubled hydroxides (LDH) as oxygen evolution reaction (OER) catalysts have attracted tremendous research interests. However, it is still a great challenge to strengthen the intrinsic activity of LDH. Herein, hollow CoNiFe‐LDH nanocages with amorphous/crystal phase and element gradient distribution are successfully constructed through the coordinated etching and precipitation process. Utilizing the difference of solubility product constants among transition metal cations to generate the gradient distribution effect in nanocages is proposed for the first time. The distinctive element gradient distribution in hollow CoNiFe‐LDH nanocages results in the composition gradient, which can provide the heterojunctions effect and play an important role in regulating morphology and electronic structure. Density functional theory calculations disclose that the synergistic effect between elements significantly regulates the electron density and enhances the conductivity. When employed as OER electrocatalysts, it exhibits a very competitive overpotential of 257 mV at 10 mA cm −2 combined with a low Tafel slope of 31.4 mV dec −1 . This work represents a promising strategy to fabricate highly efficient OER catalysts for electrochemical water splitting and provides new opportunities to understand the promotion mechanism of intrinsic activity.

Topics & Concepts

NanocagesMaterials scienceOverpotentialTafel equationOxygen evolutionChemical engineeringAmorphous solidDensity functional theoryCatalysisWater splittingHeterojunctionPrecipitationConductivityChemical physicsNanotechnologyElectrochemistryPhysical chemistryPhotocatalysisCrystallographyComputational chemistryChemistryOptoelectronicsElectrodeMeteorologyEngineeringPhysicsBiochemistryElectrocatalysts for Energy ConversionSupercapacitor Materials and FabricationAdvanced battery technologies research
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