Add to ORKGHere we introduce the Fixed Energy X-Ray Absorption Voltammetry (1), a novel in-situ/in-operando X-Ray Absorption Spectroscopy (XAS) technique for fast and easy preliminary characterization of electrodes and photoelectrodes which consists in recording the absorption coefficient at a fixed energy while varying at will the electrode potential. The energy is chosen close to a core level absorption edge, in order to give the maximum contrast between different oxidation states of an element. It follows that any shift from the initial oxidation state determines a variation of the X-ray absorption coefficient. In this work we demonstrate that FEXRAV allows to quickly map the variation of the oxidation states of the element under consideration in a...
Nanoscale electrocatalysts have exhibited promising activity and stability, improving the kinetics o...
For a detailed understanding and systematic optimization of fuel cell systems, in situ studies are a...
The behavior of highly hydrated IrOx porous electrodes under potentiostatic conditions is studied by...
Electrochemical in-situ and in-operando X-ray absorption spectroscopy represents one of the most pow...
Fixed Energy X-Ray Absorption Voltammetry represents a novel in-situ X-Ray absorption technique for ...
In situ experiments combining X-ray absorption spectroscopy (XAS) and electrochemistry have now beco...
In this work the oxidation states assumed by Ir in oxide systems used as heterogeneous catalysts for...
In this paper, the fixed energy X-ray absorption voltammetry (FEXRAV) is introduced. FEXRAV represen...
In this paper, the fixed energy X-ray absorption voltammetry (FEXRAV) is introduced. FEXRAV represen...
In this paper, the fixed energy X-ray absorption voltammetry (FEXRAV) is introduced. FEXRAV represen...
Photoelectrocatalytic processes (e.g. water splitting) are particularly interesting as a method of s...
Iridium and ruthenium and their oxides/hydroxides are the best candidates for the oxygen evolution r...
Iridium and ruthenium and their oxides hydroxides are the best candidates for the oxygen evolution r...
Iridium and ruthenium and their oxides/hydroxides are the best candidates for the oxygen evolution r...
This minireview aims at providing a complete survey concerning the use of X-ray absorption spectrosc...
Nanoscale electrocatalysts have exhibited promising activity and stability, improving the kinetics o...
For a detailed understanding and systematic optimization of fuel cell systems, in situ studies are a...
The behavior of highly hydrated IrOx porous electrodes under potentiostatic conditions is studied by...
Electrochemical in-situ and in-operando X-ray absorption spectroscopy represents one of the most pow...
Fixed Energy X-Ray Absorption Voltammetry represents a novel in-situ X-Ray absorption technique for ...
In situ experiments combining X-ray absorption spectroscopy (XAS) and electrochemistry have now beco...
In this work the oxidation states assumed by Ir in oxide systems used as heterogeneous catalysts for...
In this paper, the fixed energy X-ray absorption voltammetry (FEXRAV) is introduced. FEXRAV represen...
In this paper, the fixed energy X-ray absorption voltammetry (FEXRAV) is introduced. FEXRAV represen...
In this paper, the fixed energy X-ray absorption voltammetry (FEXRAV) is introduced. FEXRAV represen...
Photoelectrocatalytic processes (e.g. water splitting) are particularly interesting as a method of s...
Iridium and ruthenium and their oxides/hydroxides are the best candidates for the oxygen evolution r...
Iridium and ruthenium and their oxides hydroxides are the best candidates for the oxygen evolution r...
Iridium and ruthenium and their oxides/hydroxides are the best candidates for the oxygen evolution r...
This minireview aims at providing a complete survey concerning the use of X-ray absorption spectrosc...
Nanoscale electrocatalysts have exhibited promising activity and stability, improving the kinetics o...
For a detailed understanding and systematic optimization of fuel cell systems, in situ studies are a...
The behavior of highly hydrated IrOx porous electrodes under potentiostatic conditions is studied by...