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Water adlayers bridging metal spillover to boost catalytic activity

Yamei Fan, Rongtan Li, Xiangze Du, Fei Wang, Xiaohui Feng, Youyuanhe Yang, Conghui Liu, Jiaxin Li, Cui Dong, Jianyang Wang, Na Ta, Wenhao Cui, Yanxiao Ning, Rentao Mu, Qiang Fu

2025Nature Communications5 citationsDOIOpen Access PDF

Abstract

Hydrogen spillover has been extensively studied in heterogeneous catalysis, whereas the analogous migration of metal species remains largely underexplored. Here, we report a spillover phenomenon for metal species, exemplified by copper, which spontaneously migrates across physically contacted hydrophilic supports under humid ambient conditions. This process is facilitated by water adlayers on support surfaces, which act as molecular bridges to enable surface and interfacial migration of cooper species via hydroxylated intermediates. The phenomenon is universal across diverse supports, including oxides, carbides, and sulfides, and extends to metals such as ruthenium, cobalt, and nickel. Remarkably, catalysts prepared via this spillover approach exhibit substantially enhanced low-temperature activity in reactions including carbon monoxide oxidation, reverse water-gas shift, selective catalyst reduction with ammonia, and hydrogen cyanide oxidation, outperforming counterparts prepared by conventional impregnation. This work redefines the spillover phenomenon by extending it to metal species through water adlayer-mediated migration, opening new avenues for the design of dynamic catalysts. While hydrogen spillover has been widely investigated in heterogeneous catalysis, the migration of metal species via a similar mechanism remains poorly understood. Here, the authors reveal a metal-species spillover process enabled by water adlayers on support surfaces.

Topics & Concepts

Hydrogen spilloverCatalysisSpillover effectCarbon monoxideMetalHydrogenChemistryChemical engineeringBridging (networking)Chemical physicsMaterials scienceNanotechnologyTransition metalCarbon fibersWater splittingCyanideWork (physics)Hydrogen cyanideCatalytic Processes in Materials ScienceElectrocatalysts for Energy ConversionNanomaterials for catalytic reactions
Water adlayers bridging metal spillover to boost catalytic activity | Litcius