The design of advanced N-doped carbon materials towards oxygen reduction reaction (ORR) catalysis is only possible if the nature of the active sites is fully understood. There is an important piece of research seeking to overcome this challenge through experimental or theoretical results. However, the combination of both approaches is necessary to deepen the knowledge about this subject. This work presents excellent agreement between experimental results and computational models, which provides evidence of the nature of the most active sites in N-doped carbon materials. N-doped carbon materials have been experimentally obtained through double stage treatment of polyaniline in distinct atmospheres (both oxygen-containing and inert atmosphere...
Nitrogen doped carbons are among the fastest growing class of materials used for oxygen electrocatal...
9 Figures, 3 Tables.-- Informacion suplementaria disponible en línea en la página web del editor.-- ...
Active sites and the catalytic mechanism of nitrogen-doped graphene in an oxygen reduction reaction ...
The design of advanced N-doped carbon materials towards oxygen reduction reaction (ORR) catalysis is...
N-doped carbon materials have been considered one of the most promising options for the replacement ...
N-doped carbon materials were obtained using polyaniline (PANI) as precursor. Heat treatment of PANI...
One of the biggest challenges in producing fuel cells at affordable prices is to synthesize carbon m...
We present two different ways to fabricate nitrogen-doped graphene (N-graphene) and demonstrate its ...
Nitrogen-containing superporous activated carbons were prepared by chemical polymerization of anilin...
Nitrogen-doped carbons are among the fastest-growing class of materials used for oxygen electrocatal...
Nitrogen-doped carbons are among the fastest-growing class of materials used for oxygen electrocatal...
Nitrogen-doped carbons are among the fastest-growing class of materials used for oxygen electrocatal...
© 2020 American Chemical Society. Nitrogen-doped carbon catalysts prepared from amino-functionalized...
Platinum (Pt) is the one of the most efficient electrode catalysts for oxygen reduction reaction (OR...
Nitrogen doped carbons are among the fastest growing class of materials used for oxygen electrocatal...
Nitrogen doped carbons are among the fastest growing class of materials used for oxygen electrocatal...
9 Figures, 3 Tables.-- Informacion suplementaria disponible en línea en la página web del editor.-- ...
Active sites and the catalytic mechanism of nitrogen-doped graphene in an oxygen reduction reaction ...
The design of advanced N-doped carbon materials towards oxygen reduction reaction (ORR) catalysis is...
N-doped carbon materials have been considered one of the most promising options for the replacement ...
N-doped carbon materials were obtained using polyaniline (PANI) as precursor. Heat treatment of PANI...
One of the biggest challenges in producing fuel cells at affordable prices is to synthesize carbon m...
We present two different ways to fabricate nitrogen-doped graphene (N-graphene) and demonstrate its ...
Nitrogen-containing superporous activated carbons were prepared by chemical polymerization of anilin...
Nitrogen-doped carbons are among the fastest-growing class of materials used for oxygen electrocatal...
Nitrogen-doped carbons are among the fastest-growing class of materials used for oxygen electrocatal...
Nitrogen-doped carbons are among the fastest-growing class of materials used for oxygen electrocatal...
© 2020 American Chemical Society. Nitrogen-doped carbon catalysts prepared from amino-functionalized...
Platinum (Pt) is the one of the most efficient electrode catalysts for oxygen reduction reaction (OR...
Nitrogen doped carbons are among the fastest growing class of materials used for oxygen electrocatal...
Nitrogen doped carbons are among the fastest growing class of materials used for oxygen electrocatal...
9 Figures, 3 Tables.-- Informacion suplementaria disponible en línea en la página web del editor.-- ...
Active sites and the catalytic mechanism of nitrogen-doped graphene in an oxygen reduction reaction ...