Add to ORKGWe hypothesize that decreased surface coverage of Cu atoms prevent the alloy from forming appreciable amounts of hydrocarbons. To understand the origin of this effect, we proposed to study CO2 reduction on copper-palladium alloy thin film catalysts with controllable compositions. By systemically correlating surface composition to activity, we will understand to how to rationally design copper-based alloys that show high performance and selectivity for fuel formation
There is an urgent need to develop technologies that use renewable energy to convert waste products ...
Copper has received significant attention for decades as electrode material for the electrochemical ...
Revealing the active nature of oxide-derived copper is of key importance to understand its remarkabl...
Electrochemical CO₂ reduction to valuable products is a centerpiece of future energy technologies th...
Redox-active copper catalysts with accurately prepared oxidation states (Cu0, Cu+ and Cu2+) and high...
The lack of availability of efficient, selective and stable electrocatalysts is a major hindrance fo...
The energy transition is one important approach to face the recent climate change problem [1, 2]. Th...
DoctorElectrochemical carbon dioxide reduction (ECR) mimics the dark reaction of photosynthesis. The...
The effective abatement of atmospheric carbon through its conversion via electrochemical reduction t...
The research of this thesis is to develop copper (Cu) based materials with various strategies for CO...
The electroreduction of carbon dioxide to value-added chemicals, powered by renewable electricity, s...
The increasing atmospheric carbon dioxide (CO2) level is calling for more efficient CO2 fixation sys...
In this study, five copper-palladium clusters supported on defective graphene were investigated as c...
The utilization of carbon dioxide is a major incentive for the growing field of carbon capture. Carb...
A surface‐restructuring strategy is presented that involves self‐cleaning Cu catalyst electrodes wit...
There is an urgent need to develop technologies that use renewable energy to convert waste products ...
Copper has received significant attention for decades as electrode material for the electrochemical ...
Revealing the active nature of oxide-derived copper is of key importance to understand its remarkabl...
Electrochemical CO₂ reduction to valuable products is a centerpiece of future energy technologies th...
Redox-active copper catalysts with accurately prepared oxidation states (Cu0, Cu+ and Cu2+) and high...
The lack of availability of efficient, selective and stable electrocatalysts is a major hindrance fo...
The energy transition is one important approach to face the recent climate change problem [1, 2]. Th...
DoctorElectrochemical carbon dioxide reduction (ECR) mimics the dark reaction of photosynthesis. The...
The effective abatement of atmospheric carbon through its conversion via electrochemical reduction t...
The research of this thesis is to develop copper (Cu) based materials with various strategies for CO...
The electroreduction of carbon dioxide to value-added chemicals, powered by renewable electricity, s...
The increasing atmospheric carbon dioxide (CO2) level is calling for more efficient CO2 fixation sys...
In this study, five copper-palladium clusters supported on defective graphene were investigated as c...
The utilization of carbon dioxide is a major incentive for the growing field of carbon capture. Carb...
A surface‐restructuring strategy is presented that involves self‐cleaning Cu catalyst electrodes wit...
There is an urgent need to develop technologies that use renewable energy to convert waste products ...
Copper has received significant attention for decades as electrode material for the electrochemical ...
Revealing the active nature of oxide-derived copper is of key importance to understand its remarkabl...