Article Dans Une Revue Chemistry–Methods Année : 2025

Capturing Electrochemically Galvanic Exchange Events between Silver and Gold in Nonequilibrium and Equilibrium Realms

Résumé

The galvanic replacement reaction triggered by the electrochemical potential difference between two metals enables the design of multifunctional nanostructures for catalysis, sensing, and energy. However, there is still limited knowledge of the dynamics in the nonequilibrium and equilibrium realms to maximize material access or prevent structure damage. A methodology is reported to capture galvanic exchange events between atoms of electrodeposited bare Ag particles and aqueous Au (III) Cl 4 − species. As the population of Au (III) Cl 4 − species increases from the stoichiometric value to two orders of magnitude, the open‐circuit potential parameter that determines galvanic exchanges in the nonequilibrium and equilibrium domains follows a quasi‐sigmoidal shape. An autocatalytic reaction network mechanism is postulated. The galvanic reaction can be interrupted whenever required to yield stable, separable intermediates that increase the rate of their own formation. The knowledge of the Au (III) Cl 4 − concentration‐dependent potential‐time curves permits to drastically reduce the reaction duration, from 85 to 13 min, while maintaining the material structure and properties, which will undoubtedly inspire new insights into other galvanic exchange processes.

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hal-05136675 , version 1 (30-06-2025)

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Bonito Aristide Karamoko, Erwan Oliviero, Yaovi Holade. Capturing Electrochemically Galvanic Exchange Events between Silver and Gold in Nonequilibrium and Equilibrium Realms. Chemistry–Methods, 2025, pp.e202500030. ⟨10.1002/cmtd.202500030⟩. ⟨hal-05136675⟩
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