Add to ORKGAdsorbates at the electrode change the structure of the electrode/electrolyte interface. Despite the important influence of the interfacial structure on electrochemical processes, computational investigations targeting this influence are still lacking. Even the impact of one of the most common adsorbates, namely, adsorbed OH, is so far largely unknown. In this study, we choose the Pt(100)/water interface as a model system to investigate the interfacial water structure at various OH coverages with ab initio molecular dynamics. We find that the interfacial water structure is highly sensitive to the adsorption site of OH (namely, top or bridge site) and that the preference of adsorption sites of OH is, in turn, strongly influenced by the solva...
Unraveling the atomistic structures of electric double layers (EDL) at electrified interfaces is of ...
Unraveling the atomistic structures of electric double layers (EDL) at electrified interfaces is of ...
We report the different way to explain the nature of water molecule (H2O) adsorption on the platinum...
Density functional theory molecular dynamics simulations of H-covered Pt(111)-H2O interfaces reveal ...
Atomically flat, single-crystal solid–liquid interfaces attract considerable interest through their ...
Atomically flat, single-crystal solid-liquid interfaces attract considerable interest through their ...
Density functional theory calculations were applied to OH formations on stepped Pt electrodes of Pt...
Understanding the electrode–water interface structure in acid and alkali is crucial to unveiling the...
Understanding the electrode–water interface structure in acid and alkali is crucial to unveiling the...
Understanding the electrode–water interface structure in acid and alkali is crucial to unveiling the...
Understanding the electrode–water interface structure in acid and alkali is crucial to unveiling the...
The mass and charge distribution at electrochemical interfaces plays a key role in driving electroch...
Abstract(#br)The origin of the potential difference between the potential of zero charge of a metal/...
The interface between an electrode and an electrolyte is where electrochemical processes take place ...
R.K. is supported by the School of Chemical Engineering of Aalto University through a doctoral schol...
Unraveling the atomistic structures of electric double layers (EDL) at electrified interfaces is of ...
Unraveling the atomistic structures of electric double layers (EDL) at electrified interfaces is of ...
We report the different way to explain the nature of water molecule (H2O) adsorption on the platinum...
Density functional theory molecular dynamics simulations of H-covered Pt(111)-H2O interfaces reveal ...
Atomically flat, single-crystal solid–liquid interfaces attract considerable interest through their ...
Atomically flat, single-crystal solid-liquid interfaces attract considerable interest through their ...
Density functional theory calculations were applied to OH formations on stepped Pt electrodes of Pt...
Understanding the electrode–water interface structure in acid and alkali is crucial to unveiling the...
Understanding the electrode–water interface structure in acid and alkali is crucial to unveiling the...
Understanding the electrode–water interface structure in acid and alkali is crucial to unveiling the...
Understanding the electrode–water interface structure in acid and alkali is crucial to unveiling the...
The mass and charge distribution at electrochemical interfaces plays a key role in driving electroch...
Abstract(#br)The origin of the potential difference between the potential of zero charge of a metal/...
The interface between an electrode and an electrolyte is where electrochemical processes take place ...
R.K. is supported by the School of Chemical Engineering of Aalto University through a doctoral schol...
Unraveling the atomistic structures of electric double layers (EDL) at electrified interfaces is of ...
Unraveling the atomistic structures of electric double layers (EDL) at electrified interfaces is of ...
We report the different way to explain the nature of water molecule (H2O) adsorption on the platinum...