Add to ORKGThis dissertation aims to contribute towards an artificial nitrogen cycle based on carbon-based materials design by electrochemical nitrogen reduction with an electrochemical activated C2N material and nitrate reduction with a single bismuth site material. These two parts include materials design and mechanism interpreting with experiments combined with density functional theory (DFT) calculations. By building well-defined catalytically active sites on heterogeneous carbon-based materials in different dimensions, it hopefully lights up a mild flame for the path to our ambitious goal, artificial nitrogen cycle
How much carbon does it take to make nitric acid? The counterintuitive answer nowadays is quite a lo...
International audienceNitrogen-doped carbons were produced using hydrothermal carbonization of nitro...
Department of ChemistryAmmonia (NH3) is a carbon-free hydrogen carrier as a promising renewable fuel...
This dissertation aims to contribute towards an artificial nitrogen cycle based on carbon-based mate...
The electrochemical nitrogen reduction reaction (NRR) to ammonia (NH₃) is a potentially carbon‐neutr...
The electrochemical nitrogen reduction reaction (NRR) to ammonia (NH3) is a potentially carbon-neutr...
The electrochemical nitrogen reduction reaction (NRR) to ammonia (NH 3 ) is a potentially carbon‐neu...
Nitrogen-doped carbons are among the fastest-growing class of materials used for oxygen electrocatal...
The Haber-Bosh process is currently potent for ammonia (NH3) production at a high rate but is an ene...
The development and optimization of carbonaceous materials is of great interest for several applicat...
The purpose of our program is to explore fundamental chemistry relevant to the discovery of energy e...
Artificial nitrogen fixation causes excess nitrate (NO3-) production due to an unbalanced nitrogen c...
The design of advanced N-doped carbon materials towards oxygen reduction reaction (ORR) catalysis is...
One of the biggest challenges in producing fuel cells at affordable prices is to synthesize carbon m...
In the last century, the indiscriminate use of fossil energy to power the industrial revolution and ...
How much carbon does it take to make nitric acid? The counterintuitive answer nowadays is quite a lo...
International audienceNitrogen-doped carbons were produced using hydrothermal carbonization of nitro...
Department of ChemistryAmmonia (NH3) is a carbon-free hydrogen carrier as a promising renewable fuel...
This dissertation aims to contribute towards an artificial nitrogen cycle based on carbon-based mate...
The electrochemical nitrogen reduction reaction (NRR) to ammonia (NH₃) is a potentially carbon‐neutr...
The electrochemical nitrogen reduction reaction (NRR) to ammonia (NH3) is a potentially carbon-neutr...
The electrochemical nitrogen reduction reaction (NRR) to ammonia (NH 3 ) is a potentially carbon‐neu...
Nitrogen-doped carbons are among the fastest-growing class of materials used for oxygen electrocatal...
The Haber-Bosh process is currently potent for ammonia (NH3) production at a high rate but is an ene...
The development and optimization of carbonaceous materials is of great interest for several applicat...
The purpose of our program is to explore fundamental chemistry relevant to the discovery of energy e...
Artificial nitrogen fixation causes excess nitrate (NO3-) production due to an unbalanced nitrogen c...
The design of advanced N-doped carbon materials towards oxygen reduction reaction (ORR) catalysis is...
One of the biggest challenges in producing fuel cells at affordable prices is to synthesize carbon m...
In the last century, the indiscriminate use of fossil energy to power the industrial revolution and ...
How much carbon does it take to make nitric acid? The counterintuitive answer nowadays is quite a lo...
International audienceNitrogen-doped carbons were produced using hydrothermal carbonization of nitro...
Department of ChemistryAmmonia (NH3) is a carbon-free hydrogen carrier as a promising renewable fuel...