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Liquid-mediated Ostwald ripening of Ag-based clusters supported on oxides

Conghui Liu, Rongtan Li, Yamei Fan, Shiwen Li, Xiaohui Feng, Lu Feng, Yanxiao Ning, Qiang Fu

2024Nano Research16 citationsDOI

Abstract

Reconstruction of supported nanocatalysts often occurs in gas–solid reactions and significantly affects the catalytic performance, yet it is much less explored in liquid-phase environment. Herein, we find that highly-dispersed Ag nanocatalysts, i.e., AgO x clusters, supported on alumina, silica, and titania, can aggregate into larger Ag or Ag 2 O particles after immersing in liquid-phase media at room temperature. The spontaneous aggregation of AgO x clusters in liquid water is attributed to liquid-phase Ostwald ripening through dissolution of AgO x clusters into water and subsequent redeposition to form Ag 2 O particles. The immersion into organic solvents such as ethanol leads to reduction of AgO x clusters and further growth into Ag particles. This work reveals that liquid-phase reaction media can induce substantial structural evolution of supported nanostructured catalysts, which should be carefully considered in liquid–solid interface catalytic reactions such as electrocatalysis, environmental catalysis, and organic synthesis in liquid phase.

Topics & Concepts

Ostwald ripeningRipeningChemical engineeringMaterials scienceNanotechnologyChemistryChemical physicsCrystallographyFood scienceEngineeringCatalytic Processes in Materials ScienceNanomaterials for catalytic reactionsAdvancements in Battery Materials
Liquid-mediated Ostwald ripening of Ag-based clusters supported on oxides | Litcius