Stripping away ion hydration shells in electrical double-layer formation: Water networks matter

Stripping away ion hydration shells in electrical double-layer formation: Water networks matter

The double layer at the solid/electrolyte interface is a key concept in electrochemistry. Here, we present an experimental study combined with simulations, which provides a molecular picture of the double-layer formation under applied voltage. By THz spectroscopy we are able to follow the stripping...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2021-11, Vol.118 (47), p.1-8
Hauptverfasser: Alfarano, Serena R., Pezzotti, Simone, Stein, Christopher J., Lin, Zhou, Sebastiani, Federico, Funke, Sarah, Hoberg, Claudius, Kolling, Inga, Ma, Chun Yu, Mauelshagen, Katja, Ockelmann, Thorsten, Schwaab, Gerhard, Fu, Li, Brubach, Jean-Blaise, Roy, Pascale, Head-Gordon, Martin, Tschulik, Kristina, Gaigeot, Marie-Pierre, Havenith, Martina
Format: Artikel
Sprache:eng
Schlagworte:
Chemical Sciences
double layer
Electrochemistry
electrolyte
Electrolytes
Electronic structure
Hydration
hydrogen bonding
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Molecular dynamics
Molecular structure
operando
or physical chemistry
Other
Physical Sciences
Shells
Sodium chloride
Spectroscopy
Spectrum analysis
Synchrotrons
Theoretical and
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Zusammenfassung:The double layer at the solid/electrolyte interface is a key concept in electrochemistry. Here, we present an experimental study combined with simulations, which provides a molecular picture of the double-layer formation under applied voltage. By THz spectroscopy we are able to follow the stripping away of the cation/anion hydration shells for an NaCl electrolyte at the Au surface when decreasing/increasing the bias potential. While Na⁺ is attracted toward the electrode at the smallest applied negative potentials, stripping of the Cl⁻ hydration shell is observed only at higher potential values. These phenomena are directly measured by THz spectroscopy with ultrabright synchrotron light as a source and rationalized by accompanying molecular dynamics simulations and electronic-structure calculations.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.2108568118