Heteroatom-doped carbon materials are promising metal-free catalysts for the hydrogen evolution reaction (HER) at low voltage with high durability. However, many of the active sites introduced by heteroatom doping are hardly accessible within the bulk carbon structure and consequently contribute little to the catalytic activity. Here we report a facile ionic liquid-assisted method for synthesizing mesoporous nitrogen-doped carbons, enabling enrichment of nitrogen atoms at the pore surface, demonstrated by X-ray photoelectron spectroscopy (XPS) and temperature-programmed desorption of carbon dioxide (CO<sub>2</sub>-TPD). The resulting metal-free nitrogen-doped mesoporous carbons exhibit a remarkable electrocatalytic activity in HER. The acc...
Dual heteroatom-doped carbon materials are efficient electrocatalysts via a synergistic effect. With...
A ferrocene-based ionic liquid (Fe-IL) is used as a metal-containing feedstock with a nitrogen-enric...
To develop novel strategies for fabricating metal carbon-based materials with desirable compositions...
A bottom-up approach based on hydrothermal carbonization of organic molecules has been used to prepa...
Synthesis of mesoporous graphene materials by softlate methods remains a great challenge, owing to t...
In the present work, a novel impregnation method, namely vaporization-capillary condensation method,...
Mesoporous carbons (MCs) are highly porous materials, which offer high surface area and higher elect...
Earth abundant carbon materials have been spotlighted in the field of electrocatalysis. Because of l...
The rational design of a sustainable synthetic pathway to develop carbonaceous materials with effici...
Carbon materials modified with nonmetallic elements, such as boron, fluorine, nitrogen, phosphorus, ...
We demonstrate that it is possible to transform traditional mesoporous carbons into a superior metal...
Nitrogen-modified ordered mesoporous carbon is synthesized via the 900 °C carbonization of polyanili...
A cost-effective green synthesis method for nitrogen-doped porous carbon from Chinese steamed bread ...
The development of ordered mesoporous carbon materials with controllable structures and improved phy...
Fe and N dual-doped mesoporous carbon catalyst demonstrated superior catalytic activity than Pt cata...
Dual heteroatom-doped carbon materials are efficient electrocatalysts via a synergistic effect. With...
A ferrocene-based ionic liquid (Fe-IL) is used as a metal-containing feedstock with a nitrogen-enric...
To develop novel strategies for fabricating metal carbon-based materials with desirable compositions...
A bottom-up approach based on hydrothermal carbonization of organic molecules has been used to prepa...
Synthesis of mesoporous graphene materials by softlate methods remains a great challenge, owing to t...
In the present work, a novel impregnation method, namely vaporization-capillary condensation method,...
Mesoporous carbons (MCs) are highly porous materials, which offer high surface area and higher elect...
Earth abundant carbon materials have been spotlighted in the field of electrocatalysis. Because of l...
The rational design of a sustainable synthetic pathway to develop carbonaceous materials with effici...
Carbon materials modified with nonmetallic elements, such as boron, fluorine, nitrogen, phosphorus, ...
We demonstrate that it is possible to transform traditional mesoporous carbons into a superior metal...
Nitrogen-modified ordered mesoporous carbon is synthesized via the 900 °C carbonization of polyanili...
A cost-effective green synthesis method for nitrogen-doped porous carbon from Chinese steamed bread ...
The development of ordered mesoporous carbon materials with controllable structures and improved phy...
Fe and N dual-doped mesoporous carbon catalyst demonstrated superior catalytic activity than Pt cata...
Dual heteroatom-doped carbon materials are efficient electrocatalysts via a synergistic effect. With...
A ferrocene-based ionic liquid (Fe-IL) is used as a metal-containing feedstock with a nitrogen-enric...
To develop novel strategies for fabricating metal carbon-based materials with desirable compositions...