Highly porous nitrogen doped carbon nanomaterials have distinct advantages in energy storage and conversion technologies. In the present work, hydrothermal treatments in water or ammonia solution were used for modification of mesoporous nitrogen doped graphitic carbon, synthesized by deposition of acetonitrile vapors on the pyrolysis products of calcium tartrate. Morphology, composition, and textural characteristics of the original and activated materials were studied by transmission electron microscopy, X ray photoelectron spectroscopy, near edge X ray absorption fine structure spectroscopy, infrared spectroscopy, and nitrogen gas adsorption method. Both treatments resulted in a slight increase in specific surface area and volume of microp...
Marine-derived as well as freshwater feedstock offers important benefits, such as abundance, morphol...
Three-dimensional (3D) porous carbons with controlled mesopore and micropore structures were prepare...
A nitrogen-doped porous carbon monolith was synthesized as a pseudo-capacitive electrode for use in ...
Highly porous nitrogen doped carbon nanomaterials have distinct advantages in energy storage and con...
A facile one-pot method using NaNO3 as etching agent in a molten salt medium is developed to tune th...
International audienceSix porous carbon materials, produced by hydrothermal treatment of flavonoid t...
In this paper, nitrogen doped carbon materials with mesopores 4–8 nm-wide and a high surface area of...
A facile synthesis strategy to control the porosity of ionothermal nitrogen doped carbons is demonst...
The use of nitrogen-doped carbon materials as electrodes in supercapacitors is a promising area of r...
The incorporation of nitrogen into hydrothermal carbon with (NH₄)₂SO₄ is shown to have a significant...
Pyrolitic self-templating synthesis is an effective method for creating hierarchically porous N-dope...
Highly accessible surface area and heteroatom-doping are desired properties for carbon electrode mat...
A cost-effective green synthesis method for nitrogen-doped porous carbon from Chinese steamed bread ...
Ammonium has been successfully utilized to nitrogen dope carbon structures via hydrothermal carboniz...
Nitrogen functionalization of a highly microporous activated carbon (BET surface area higher than 30...
Marine-derived as well as freshwater feedstock offers important benefits, such as abundance, morphol...
Three-dimensional (3D) porous carbons with controlled mesopore and micropore structures were prepare...
A nitrogen-doped porous carbon monolith was synthesized as a pseudo-capacitive electrode for use in ...
Highly porous nitrogen doped carbon nanomaterials have distinct advantages in energy storage and con...
A facile one-pot method using NaNO3 as etching agent in a molten salt medium is developed to tune th...
International audienceSix porous carbon materials, produced by hydrothermal treatment of flavonoid t...
In this paper, nitrogen doped carbon materials with mesopores 4–8 nm-wide and a high surface area of...
A facile synthesis strategy to control the porosity of ionothermal nitrogen doped carbons is demonst...
The use of nitrogen-doped carbon materials as electrodes in supercapacitors is a promising area of r...
The incorporation of nitrogen into hydrothermal carbon with (NH₄)₂SO₄ is shown to have a significant...
Pyrolitic self-templating synthesis is an effective method for creating hierarchically porous N-dope...
Highly accessible surface area and heteroatom-doping are desired properties for carbon electrode mat...
A cost-effective green synthesis method for nitrogen-doped porous carbon from Chinese steamed bread ...
Ammonium has been successfully utilized to nitrogen dope carbon structures via hydrothermal carboniz...
Nitrogen functionalization of a highly microporous activated carbon (BET surface area higher than 30...
Marine-derived as well as freshwater feedstock offers important benefits, such as abundance, morphol...
Three-dimensional (3D) porous carbons with controlled mesopore and micropore structures were prepare...
A nitrogen-doped porous carbon monolith was synthesized as a pseudo-capacitive electrode for use in ...
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