Add to ORKGMolecular complexes can be used as electrocatalysts for oxygen reduction, water oxidation, and/or hydrogen peroxide production. However, in situ degradation of these catalyst is a major issue. This dissertations describes the analysis of degradation processes as well as the performance of various molecular electrocatalysts. In addition, complexes have been structurally modified to perform structure-activity studies that could to mechanistic insight. In addition, it is described how molecular catalysts can be beneficial to heterogeneous electrocatalysis as well. Catalysis and Surface Chemistr
The use of molecular electrochemical catalysts for small molecule transformations is a quickly growi...
The development of cost effective renewable energy sources is necessary to meet increasing demand an...
This chapter presents theoretical studies (mainly with first principle methods) of non-noble metal e...
Molecular complexes can be used as electrocatalysts for oxygen reduction, water oxidation, and/or hy...
© 2020 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim Development of highly active molecular electroca...
International audienceIn this article, the fundamental concepts of redox catalysis are first present...
Efficient water oxidation catalysts are important for the development of photo-electrochemical cells...
In this review, the utilization of coordination compounds as electrocatalysts in a number of electro...
Adsorption energy (AE) of reactive intermediates adsorbed on the surface of electrocatalysts is curr...
In this review, the utilization of coordination compounds as electrocatalysts in a number of electro...
This thesis describes the strategic application of electrochemistry in the development of catalytic ...
Water oxidation is still one of the most important challenges to develop efficient artificial photos...
In this thesis I will describe my contributions to the field of molecular water oxidation catalysis....
The pursuit of sunlight-to-fuels technology has motivated researchers to explore electrocatalysts fo...
The field of molecular electrocatalysis research includes a wide range of emerging technologies that...
The use of molecular electrochemical catalysts for small molecule transformations is a quickly growi...
The development of cost effective renewable energy sources is necessary to meet increasing demand an...
This chapter presents theoretical studies (mainly with first principle methods) of non-noble metal e...
Molecular complexes can be used as electrocatalysts for oxygen reduction, water oxidation, and/or hy...
© 2020 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim Development of highly active molecular electroca...
International audienceIn this article, the fundamental concepts of redox catalysis are first present...
Efficient water oxidation catalysts are important for the development of photo-electrochemical cells...
In this review, the utilization of coordination compounds as electrocatalysts in a number of electro...
Adsorption energy (AE) of reactive intermediates adsorbed on the surface of electrocatalysts is curr...
In this review, the utilization of coordination compounds as electrocatalysts in a number of electro...
This thesis describes the strategic application of electrochemistry in the development of catalytic ...
Water oxidation is still one of the most important challenges to develop efficient artificial photos...
In this thesis I will describe my contributions to the field of molecular water oxidation catalysis....
The pursuit of sunlight-to-fuels technology has motivated researchers to explore electrocatalysts fo...
The field of molecular electrocatalysis research includes a wide range of emerging technologies that...
The use of molecular electrochemical catalysts for small molecule transformations is a quickly growi...
The development of cost effective renewable energy sources is necessary to meet increasing demand an...
This chapter presents theoretical studies (mainly with first principle methods) of non-noble metal e...