Add to ORKG166-173It is known that carbon dioxide undergoes electrochemical reduction to a variety of products like CO, hydrocarbons and alcohols on metallic surfaces and that the nature of the metal has a role to play in the observed selectivity of products. Rationalization of the results obtained on different metallic surfaces and accounting for the selectivity have been the points of contention in literature. This presentation examines these aspects from the point of view of surface activation of carbon dioxide and proposes a site specific and geometry constrained adsorption of carbon dioxide as the possible reason for the variation in the results reported in literature
International audienceThe recent demonstration of the reduced overpotential for the electrochemical ...
We have explored functionalizing metal catalysts with surface ligands as an approach to facilitate e...
The electrochemical reduction of CO2 with Cu-based catalysts depends intimately on the instantaneous...
The adsorption of CQ on transition metal electrodes was characterized by means of pseudocapacity mea...
The mechanism of CO2 reduction reaction (CO2RR) on silver electrode surfaces has been investigated b...
We have investigated the role of surface roughening on the CO2 reduction reaction (CO2RR) over Cu. T...
Chapter 1 – The rising levels of CO2 in the atmosphere necessitate further investigation into method...
The electrochemical CO2 reduction reaction (CO2RR) is important for a sustainable future. Key insigh...
The review discusses how CO2 surface chemistry has developed since the early 1950s. Emphasis is give...
Carbon dioxide electroreduction in aqueous media using Cu catalysts can generate many different C2 a...
Sustainable development and climate change is considered to be one of the top challenges of humanity...
AbstractThe review discusses how CO2 surface chemistry has developed since the early 1950s. Emphasis...
The electrocatalytic reduction of carbon dioxide is widely studied for the sustainable production of...
The electrochemical reduction of CO2 is known to be influenced by the identity of the alkali metal c...
Despite significant theoretical efforts, the identification of the active sites for the electrochemi...
International audienceThe recent demonstration of the reduced overpotential for the electrochemical ...
We have explored functionalizing metal catalysts with surface ligands as an approach to facilitate e...
The electrochemical reduction of CO2 with Cu-based catalysts depends intimately on the instantaneous...
The adsorption of CQ on transition metal electrodes was characterized by means of pseudocapacity mea...
The mechanism of CO2 reduction reaction (CO2RR) on silver electrode surfaces has been investigated b...
We have investigated the role of surface roughening on the CO2 reduction reaction (CO2RR) over Cu. T...
Chapter 1 – The rising levels of CO2 in the atmosphere necessitate further investigation into method...
The electrochemical CO2 reduction reaction (CO2RR) is important for a sustainable future. Key insigh...
The review discusses how CO2 surface chemistry has developed since the early 1950s. Emphasis is give...
Carbon dioxide electroreduction in aqueous media using Cu catalysts can generate many different C2 a...
Sustainable development and climate change is considered to be one of the top challenges of humanity...
AbstractThe review discusses how CO2 surface chemistry has developed since the early 1950s. Emphasis...
The electrocatalytic reduction of carbon dioxide is widely studied for the sustainable production of...
The electrochemical reduction of CO2 is known to be influenced by the identity of the alkali metal c...
Despite significant theoretical efforts, the identification of the active sites for the electrochemi...
International audienceThe recent demonstration of the reduced overpotential for the electrochemical ...
We have explored functionalizing metal catalysts with surface ligands as an approach to facilitate e...
The electrochemical reduction of CO2 with Cu-based catalysts depends intimately on the instantaneous...