S.O.S: Shape, orientation, and size tune solvation in electrocatalysis - Archive ouverte HAL
Article Dans Une Revue The Journal of Chemical Physics Année : 2024

S.O.S: Shape, orientation, and size tune solvation in electrocatalysis

Résumé

Current models to understand the reactivity of metal/aqueous interfaces in electrochemistry, e.g., volcano plots, are based on the adsorption free energies of reactants and products, which are often small hydrophobic molecules (such as in CO2 and N2 reduction). Calculations played a major role in the quantification and comprehension of these free energies in terms of the interactions that the reactive species form with the surface. However, solvation free energies also come into play in two ways: (i) by modulating the adsorption free energy together with solute–surface interactions, as the solute has to penetrate the water adlayer in contact with the surface and get partially desolvated (which costs free energy); (ii) by regulating transport across the interface, i.e., the free energy profile from the bulk to the interface, which is strongly non-monotonic due to the unique nature of metal/aqueous interfaces. Here, we use constant potential molecular dynamics to study the solvation contributions, and we uncover huge effects of the shape and orientation (on top of the already known size effect) of small hydrophobic and amphiphilic solutes on their adsorption free energy. We propose a minimal theoretical model, the S.O.S. model, that accounts for size, orientation, and shape effects. These novel aspects are rationalized by recasting the concepts at the base of the Lum–Chandler–Weeks theory of hydrophobic solvation (for small solutes in the so-called volume-dominated regime) into a layer-by-layer form, where the properties of each interfacial region close to the metal are explicitly taken into account.
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Dates et versions

hal-04745582 , version 1 (21-10-2024)

Identifiants

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Alessandra Serva, Simone Pezzotti. S.O.S: Shape, orientation, and size tune solvation in electrocatalysis. The Journal of Chemical Physics, 2024, 160 (9), pp.094707. ⟨10.1063/5.0186925⟩. ⟨hal-04745582⟩
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