Add to ORKGKnowledge of the molecular composition and electronic structure of electrified solid-liquid interfaces is key to understanding elemental processes in heterogeneous reactions. Using X-ray absorption spectroscopy in the interface-sensitive electron yield mode (EY-XAS), first-principles electronic structure calculations, and multiscale simulations, we determined the chemical composition of the interfacial region of a polycrystalline platinum electrode in contact with aqueous sulfuric acid solution at potentials between the hydrogen and oxygen evolution reactions. We found that between 0.7 and 1.3 V vs Ag/AgCl the electrical double layer (EDL) region comprises adsorbed sulfate ions with hydrated hydronium ions in the next layer. No evidence was...
Understanding the dynamic process of interfacial charge transfer prior to chemisorption is crucial t...
The interfaces between electrode and electrolyte play a vital role in various electrochemical system...
The solid electrolyte interphase (SEI) that forms on Li-ion battery anodes is critical to their long...
Knowledge of the molecular composition and electronic structure of electrified solid-liquid interfac...
Understanding the interplay between surface chemistry, electronic structure, and reaction mechanism ...
International audienceKnowledge of atomistic structures at solid/liquid interfaces is essential to e...
The comprehension of the mechanisms underlying the charge distribution at the electrochemical interf...
Achieving a molecular-level understanding of interfacial (photo)electrochemical processes is essenti...
[[abstract]]Studies are reported in which surface layers formed by immersion of well-defined Pt(ll1)...
Understanding the surface chemistry of electrocatalysts in operando can bring insight into the react...
The interaction of water with metal surfaces is at the heart of electrocatalysis. But there remain e...
Electrode/electrolyte interfaces play a vital role in various electrochemical systems, but in situ c...
A method for performing X-ray absorption spectroscopy (XAS) in the soft X-ray region was developed t...
Platinum remains vital for the use of electrochemical devices, therefore, understanding of the react...
Self-consistent modeling of the interface between solid metal electrode and liquid electrolyte is a ...
Understanding the dynamic process of interfacial charge transfer prior to chemisorption is crucial t...
The interfaces between electrode and electrolyte play a vital role in various electrochemical system...
The solid electrolyte interphase (SEI) that forms on Li-ion battery anodes is critical to their long...
Knowledge of the molecular composition and electronic structure of electrified solid-liquid interfac...
Understanding the interplay between surface chemistry, electronic structure, and reaction mechanism ...
International audienceKnowledge of atomistic structures at solid/liquid interfaces is essential to e...
The comprehension of the mechanisms underlying the charge distribution at the electrochemical interf...
Achieving a molecular-level understanding of interfacial (photo)electrochemical processes is essenti...
[[abstract]]Studies are reported in which surface layers formed by immersion of well-defined Pt(ll1)...
Understanding the surface chemistry of electrocatalysts in operando can bring insight into the react...
The interaction of water with metal surfaces is at the heart of electrocatalysis. But there remain e...
Electrode/electrolyte interfaces play a vital role in various electrochemical systems, but in situ c...
A method for performing X-ray absorption spectroscopy (XAS) in the soft X-ray region was developed t...
Platinum remains vital for the use of electrochemical devices, therefore, understanding of the react...
Self-consistent modeling of the interface between solid metal electrode and liquid electrolyte is a ...
Understanding the dynamic process of interfacial charge transfer prior to chemisorption is crucial t...
The interfaces between electrode and electrolyte play a vital role in various electrochemical system...
The solid electrolyte interphase (SEI) that forms on Li-ion battery anodes is critical to their long...