H2O2 is produced at the interface between a room-temperature ionic liquid with decamethylferrocene as electron donor and an acidic aqueous solution. The electron donor can be regenerated electrochemically
Enzymes are superb catalysts with high selectivity and catalytic efficiency. Ionic liquids have neg...
This thesis primarily focuses on the electrochemical properties of the H2/H+ redox couple, at variou...
Blowing bubbles: Hydrogen evolution by proton reduction with [(C5Me5)2Fe] occurs at a soft interface...
H2O2 is a versatile chemical and can be generated by the oxygen reduction reaction (ORR) in proton d...
The charge transfer processes across the interface between two immiscible electrolyte solutions (ITI...
Hydrogen peroxide can be electrosynthesized from oxygen in [bmim][BF 4]-water and used in situ for t...
This work undertakes mechanistic studies of H(+) reduction on a palladium microelectrode in a room t...
This work undertakes mechanistic studies of H(+) reduction on a palladium microelectrode in a room t...
This chapter addresses the important topic of electrocatalysis in ionic liquids. In particular, it i...
A new phase-separable catalysis concept is demonstrated using supercritical carbon dioxide and the r...
The kinetic behavior of electron transfer (ET) reactions at the interface between room-temperature i...
The kinetics and mechanism of the proton reduction reaction in the room temperature ionic liquid 1-e...
Although electron transfer reactions at liquid liquid interfaces have been thoroughly studied in the...
The kinetics and mechanism of the proton reduction reaction in the room temperature ionic liquid 1-e...
Electrochemical hydrogenolysis has been demonstrated in a room temperature ionic liquid (RTIL) for t...
Enzymes are superb catalysts with high selectivity and catalytic efficiency. Ionic liquids have neg...
This thesis primarily focuses on the electrochemical properties of the H2/H+ redox couple, at variou...
Blowing bubbles: Hydrogen evolution by proton reduction with [(C5Me5)2Fe] occurs at a soft interface...
H2O2 is a versatile chemical and can be generated by the oxygen reduction reaction (ORR) in proton d...
The charge transfer processes across the interface between two immiscible electrolyte solutions (ITI...
Hydrogen peroxide can be electrosynthesized from oxygen in [bmim][BF 4]-water and used in situ for t...
This work undertakes mechanistic studies of H(+) reduction on a palladium microelectrode in a room t...
This work undertakes mechanistic studies of H(+) reduction on a palladium microelectrode in a room t...
This chapter addresses the important topic of electrocatalysis in ionic liquids. In particular, it i...
A new phase-separable catalysis concept is demonstrated using supercritical carbon dioxide and the r...
The kinetic behavior of electron transfer (ET) reactions at the interface between room-temperature i...
The kinetics and mechanism of the proton reduction reaction in the room temperature ionic liquid 1-e...
Although electron transfer reactions at liquid liquid interfaces have been thoroughly studied in the...
The kinetics and mechanism of the proton reduction reaction in the room temperature ionic liquid 1-e...
Electrochemical hydrogenolysis has been demonstrated in a room temperature ionic liquid (RTIL) for t...
Enzymes are superb catalysts with high selectivity and catalytic efficiency. Ionic liquids have neg...
This thesis primarily focuses on the electrochemical properties of the H2/H+ redox couple, at variou...
Blowing bubbles: Hydrogen evolution by proton reduction with [(C5Me5)2Fe] occurs at a soft interface...
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