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Electronic Coupling of Single Atom and FePS<sub>3</sub> Boosts Water Electrolysis

Chongyang Tang, Dong He, Nan Zhang, Xianyin Song, Shuangfeng Jia, Zunjian Ke, Jiangchao Liu, Jianbo Wang, Changzhong Jiang, Ziyu Wang, Xiaoqing Huang, Xiangheng Xiao

2021Energy & environment materials34 citationsDOI

Abstract

Engineering the electronic structure of surface active sites at the atomic level can be an efficient way to modulate the reactivity of catalysts. Herein, we report the rational tuning of surface electronic structure of FePS 3 nanosheets (NSs) by anchoring atomically dispersed metal atom. Theoretical calculations predict that the strong electronic coupling effect in single‐atom Ni‐FePS 3 facilitates electron aggregation from Fe atom to the nearby Ni‐S bond and enhances the electron‐transfer of Ni and S sites, which balances the oxygen species adsorption capacity, reinforces water adsorption and dissociation process to accelerate corresponding oxygen evolution reaction (OER) and hydrogen evolution reaction (HER). The optimal Ni‐FePS 3 NSs/C exhibits outstanding electrochemical water‐splitting activities, delivering an overpotential of 287 mV at the current density of 10 mA cm −2 and a Tafel slope of 41.1 mV dec −1 for OER; as well as an overpotential decrease of 219 mV for HER compared with pure FePS 3 NSs/C. The concept of electronic coupling interaction between the substrate and implanted single active species offers an additional method for catalyst design and beyond.

Topics & Concepts

OverpotentialTafel equationOxygen evolutionAdsorptionElectrolysis of waterCatalysisDissociation (chemistry)ChemistryElectronic structureChemical physicsElectron transferElectrochemistryWater splittingElectrolysisMaterials sciencePhysical chemistryElectrodeComputational chemistryPhotocatalysisBiochemistryElectrolyteElectrocatalysts for Energy ConversionAdvancements in Battery MaterialsAdvanced Photocatalysis Techniques
Electronic Coupling of Single Atom and FePS<sub>3</sub> Boosts Water Electrolysis | Litcius