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Key Role of Bridge Adsorbed Hydrogen Intermediate on Pt–Ru Pair for Efficient Acidic Hydrogen Production

Hao Zhao, Baoxin Ni, Yongyu Pan, Yuze Li, Jun Li, Guo‐Liang Wang, Zhiqing Zou, Kun Jiang, Qingqing Cheng, Lianhai Zu, Hui Yang

2025Advanced Materials33 citationsDOIOpen Access PDF

Abstract

Abstract Atop and multiple adsorbed hydrogen are considered as key intermediates on Pt‐group metal for acidic hydrogen evolution reaction (HER), yet the role of bridge hydrogen intermediate ( * H bridge ) is consistently overlooked experimentally. Herein, a Pt atomic chain modified fcc ‐Ru nanocrystal (Pt–Ru( fcc )) is developed with a co‐crystalline structure, featuring * H bridge intermediate bonded on the Pt–Ru pair site. Electrons leap from the pair site to * H bridge facilitate hydrogen desorption, thus accelerating the Tafel kinetics and ensuring outstanding electrocatalytic performance, with a low overpotential (4.0 mV at 10 mA cm −2 ) and high turnover frequency (56.4 H 2 s −1 at 50 mV). Notably, the proton exchange membrane water electrolyzer PEMWE with ultra‐low loading of 10 ug Pt cm −2 shows excellent activity (1.61 V at 1.0 A cm −2 ) and low average degradation rate (4.0 µV h −1 over 1000 h), significantly outperforming the benchmark Pt/C. Furthermore, the PEMWE‐based 80 µm Gore membrane under identical operating conditions requires only 1.54 and 1.58 V to achieve 1.0 and 1.5 A cm −2 . This finding highlights the key role of * H bridge at the Pt–Ru interface in obtaining high HER intrinsic activity and underscores the transformative potential in designing next‐generation bimetallic catalysts for clean hydrogen energy.

Topics & Concepts

OverpotentialTafel equationHydrogenHydrogen productionMaterials scienceBimetallic stripCatalysisNanocrystalAdsorptionElectrolysis of waterMetalElectrolysisChemical engineeringInorganic chemistryNanotechnologyChemistryPhysical chemistryElectrolyteElectrodeElectrochemistryMetallurgyOrganic chemistryEngineeringElectrocatalysts for Energy ConversionFuel Cells and Related MaterialsAdvanced battery technologies research
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