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Unconventional Bilateral Compressive Strained Ni–Ir Interface Synergistically Accelerates Alkaline Hydrogen Oxidation

Tang Tang, Xiaozhi Liu, Xuan Luo, Zhuangzhuang Xue, Hairui Pan, Jiaju Fu, Ze‐Cheng Yao, Zhe Jiang, Zhenhua Lyu, Lirong Zheng, Dong Su, Jianan Zhang, Liang Zhang, Jin‐Song Hu

2023Journal of the American Chemical Society117 citationsDOI

Abstract

The alkaline hydrogen oxidation reaction (HOR) involves the coupling of adsorbed hydrogen (H ad ) and hydroxyl (OH ad ) species and is thus orders of magnitude slower than that in acid media. According to the Sabatier principle, developing electrocatalysts with appropriate binding energy for both intermediates is vital to accelerating the HOR though it is still challenging. Herein, we propose an unconventional bilateral compressive strained Ni–Ir interface (Ni–Ir( BCS )) as efficient synergistic HOR sites. Density functional theory (DFT) simulations reveal that the bilateral compressive strain effect leads to the appropriate adsorption for both H ad and OH ad, enabling their coupling thermodynamically spontaneous and kinetically preferential. Such Ni–Ir( BCS ) is experimentally achieved by embedding sub-nanometer Ir clusters in graphene-loaded high-density Ni nanocrystals (Ni–Ir( BCS )/G). As predicted, it exhibits a HOR mass activity of 7.95 and 2.88 times those of commercial Ir/C and Pt/C together with much enhanced CO tolerance, respectively, ranking among the most active state-of-the-art HOR catalysts. These results provide new insights into the rational design of advanced electrocatalysts involving coordinated adsorption and activation of multiple reactants.

Topics & Concepts

ChemistryDensity functional theoryAdsorptionCatalysisHydrogenCoupling (piping)Inorganic chemistryComputational chemistryPhotochemistryChemical physicsPhysical chemistryComposite materialOrganic chemistryMaterials scienceElectrocatalysts for Energy ConversionAdvanced battery technologies researchCatalytic Processes in Materials Science
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