Add to ORKGABSTRACT: A fundamental understanding of the interactions between coadsorbed water and hydrogen on metallic surfaces is critical to many chemical processes including catalysis and electrochemistry. Here, we report on the strong and intricate interactions between coadsorbed H/D and water on the close-packed (111) surface of gold. Deuterium isotopic labeling shows H/D exchange in H−D2O and D−H2O systems, indicating water dissociation and suggesting a nonrandom scrambling process by revealing the origin of hydrogen evolution (from surface H atoms or from water molecules) during annealing. In this reaction, the protonation of the H-bonding ice network (i.e., the formation of (H2O)nH +) is energetically favorable and is responsible for water dis...
Computational methods are combined with synchrotron-based techniques to analyze the structure and bo...
Water is one of the most studied substances with a variety of experimental and theoretical methods. ...
Water adsorbed at the metal–support interface (MSI) plays an important role in multiple reactions. D...
A fundamental understanding of the interactions between coadsorbed water and hydrogen on metallic su...
Understanding the nature of H-bonding interactions is essential to modern sciences, such as biology,...
The structure, bonding and chemistry of water and hydroxyl on metal surfaces are presented. Synchrot...
The structure, bonding and chemistry of water and hydroxyl on metal surfaces are presented. Synchrot...
The structure, bonding and chemistry of water and hydroxyl on metal surfaces are presented. Synchrot...
In this work, we study the relatively weak H2O Au interaction on the highly stepped and anisotropic ...
Water often serves as both the reactant and solvent in electrocatalytic reactions. The interfacial w...
Key descriptors in hydrogenation catalysis are the nature of the active sites for H<sub>2</sub> acti...
Understanding the structure and chemical reactivity of water adsorbed at metallic surfaces is very i...
Understanding the structure and chemical reactivity of water adsorbed at metallic surfaces is very i...
Understanding the structure and chemical reactivity of water adsorbed at metallic surfaces is very i...
Water is one of the most studied substances with a variety of experimental and theoretical methods. ...
Computational methods are combined with synchrotron-based techniques to analyze the structure and bo...
Water is one of the most studied substances with a variety of experimental and theoretical methods. ...
Water adsorbed at the metal–support interface (MSI) plays an important role in multiple reactions. D...
A fundamental understanding of the interactions between coadsorbed water and hydrogen on metallic su...
Understanding the nature of H-bonding interactions is essential to modern sciences, such as biology,...
The structure, bonding and chemistry of water and hydroxyl on metal surfaces are presented. Synchrot...
The structure, bonding and chemistry of water and hydroxyl on metal surfaces are presented. Synchrot...
The structure, bonding and chemistry of water and hydroxyl on metal surfaces are presented. Synchrot...
In this work, we study the relatively weak H2O Au interaction on the highly stepped and anisotropic ...
Water often serves as both the reactant and solvent in electrocatalytic reactions. The interfacial w...
Key descriptors in hydrogenation catalysis are the nature of the active sites for H<sub>2</sub> acti...
Understanding the structure and chemical reactivity of water adsorbed at metallic surfaces is very i...
Understanding the structure and chemical reactivity of water adsorbed at metallic surfaces is very i...
Understanding the structure and chemical reactivity of water adsorbed at metallic surfaces is very i...
Water is one of the most studied substances with a variety of experimental and theoretical methods. ...
Computational methods are combined with synchrotron-based techniques to analyze the structure and bo...
Water is one of the most studied substances with a variety of experimental and theoretical methods. ...
Water adsorbed at the metal–support interface (MSI) plays an important role in multiple reactions. D...