Add to ORKGElectrocatalysis is a core field of interfacial science because it involves enhancement of reaction rates as in the case of heterogeneous catalysis, with an additional control through the variation of electrode potential. Electrocatalytic rates are influenced by the electrode potential either directly or indirectly. Because of increasing significance of green chemistry and clean energy with an intimate relationship between heterogeneous electrocatalysis and electrochemical energy conversion (batteries and fuel cells), the field of electrocatalysis has grown rapidly. In this article, basic concepts of electrode kinetics to assess electrocatalysis, and catalytic aspects of a few important electrochemical reactions are reviewed
Several electrochemical methods have been developed in recent years for the study of the kinetic par...
The evaluation of the intrinsic activity of catalysts is the most basic in searching energy- and cos...
Catalysis is inherently driven by the interaction of reactants, intermediates and formed products wi...
Electrocatalysis is a core field of interfacial science because it involves enhancement of reaction ...
Electrocatalysis is the science exploring the rates of electrochemical reactions as a function of th...
The first two chapters in this thesis introduce the fundamental knowledge underpinning electrochemis...
Electrocatalysis is a special field in Electrochemistry that hasgained a special growth after the la...
(Photo)electrocatalysis holds the promise to enable the broad implementation of renewable energies. ...
Interfacial electrochemistry and photo(electro)catalysis are key processes that convert the energy o...
After a century of research on electrocatalytic reactions, a universal theory of electrocatalysis is...
In this article an overview of our research in the field of nanoelectrocatalysis, in particular elec...
As we are witnessing the renaissance of electrochemistry, particularly noticeable is emerging intere...
Combining computational and experimental methods is a powerful approach to understand the variables ...
Electrochemical interfaces present an extraordinarily complex reaction environment and several, ofte...
Abstract The rational design of electrocatalysis has emerged as one of the most thriving means for m...
Several electrochemical methods have been developed in recent years for the study of the kinetic par...
The evaluation of the intrinsic activity of catalysts is the most basic in searching energy- and cos...
Catalysis is inherently driven by the interaction of reactants, intermediates and formed products wi...
Electrocatalysis is a core field of interfacial science because it involves enhancement of reaction ...
Electrocatalysis is the science exploring the rates of electrochemical reactions as a function of th...
The first two chapters in this thesis introduce the fundamental knowledge underpinning electrochemis...
Electrocatalysis is a special field in Electrochemistry that hasgained a special growth after the la...
(Photo)electrocatalysis holds the promise to enable the broad implementation of renewable energies. ...
Interfacial electrochemistry and photo(electro)catalysis are key processes that convert the energy o...
After a century of research on electrocatalytic reactions, a universal theory of electrocatalysis is...
In this article an overview of our research in the field of nanoelectrocatalysis, in particular elec...
As we are witnessing the renaissance of electrochemistry, particularly noticeable is emerging intere...
Combining computational and experimental methods is a powerful approach to understand the variables ...
Electrochemical interfaces present an extraordinarily complex reaction environment and several, ofte...
Abstract The rational design of electrocatalysis has emerged as one of the most thriving means for m...
Several electrochemical methods have been developed in recent years for the study of the kinetic par...
The evaluation of the intrinsic activity of catalysts is the most basic in searching energy- and cos...
Catalysis is inherently driven by the interaction of reactants, intermediates and formed products wi...