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Hydrogen spillover bridged dual nano-islands triggered by built-in electric field for efficient and robust alkaline hydrogen evolution at ampere-level current density

Kecheng Tong, Liangliang Xu, Hanxu Yao, Xingkun Wang, Canhui Zhang, Fan Yang, Lei Chu, Jinwoo Lee, Heqing Jiang, Minghua Huang

2024Nano Research42 citationsDOI

Abstract

Employing the alkaline water electrolysis system to generate hydrogen holds great prospects but still poses significant challenges, particularly for the construction of hydrogen evolution reaction (HER) catalysts operating at ampere-level current density. Herein, the unique Ru and RuP 2 dual nano-islands are deliberately implanted on N-doped carbon substrate (denoted as Ru-RuP 2 /NC), in which a built-in electric field (BEF) is spontaneously generated between Ru-RuP 2 dual nano-islands driven by their work function difference. Experimental and theoretical results unveil that such constructed BEF could serve as the driving force for triggering fast hydrogen spillover process on bridged Ru-RuP 2 dual nano-islands, which could invalidate the inhibitory effect of high hydrogen coverage at ampere-level current density, and synchronously speed up the water dissociation on Ru nano-islands and hydrogen adsorption/desorption on RuP 2 nano-islands through hydrogen spillover process. As a result, the Ru-RuP 2 /NC affords an ultra-low overpotential of 218 mV to achieve 1.0 A·cm −2 along with the superior stability over 1000 h, holding the great promising prospect in practical applications at ampere-level current density. More importantly, this work is the first to advance the scientific understanding of the relationship between the constructed BEF and hydrogen spillover process, which could be enlightening for the rational design of the cost-effective alkaline HER catalysts at ampere-level current density.

Topics & Concepts

HydrogenCurrent densityCurrent (fluid)Electric fieldNano-AmpereHydrogen spilloverDual (grammatical number)Materials scienceNanotechnologyChemical physicsPhysicsThermodynamicsComposite materialQuantum mechanicsArtLiteratureElectrocatalysts for Energy ConversionAdvanced Memory and Neural ComputingAdvanced battery technologies research
Hydrogen spillover bridged dual nano-islands triggered by built-in electric field for efficient and robust alkaline hydrogen evolution at ampere-level current density | Litcius