Nitrogen-enriched activated carbons prepared by the activation of coniferous tree sawdust and their application in the removal of Nitrogen dioxide
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In this paper, a technology of obtaining nitrogen-enriched activated carbons from coniferous tree sawdust by direct activation of the precursor and physical activation with CO2 is described.Abstract:
A technology of obtaining nitrogen-enriched activated carbons from coniferous tree sawdust by direct activation of the precursor and physical activation with CO2 is described. The effect of activation time, pyrolysis temperature as well as modification with urea on the textural parameters, acid–base character of the surface and sorption properties of activated carbons has been tested. The resulting carbons were characterised by low-temperature nitrogen sorption and determination of the number of surface oxygen groups. The sorption properties of the materials obtained were characterised by nitrogen dioxide adsorption in dry and wet conditions. The final products were nitrogen-enriched microporous activated carbons of medium-developed surface, showing very diverse nitrogen content and acidic–basic character of the surface. The results obtained in our study have proved that through suitable choice of the activation and modification procedure of coniferous tree sawdust, activated carbons can be produced with high capacity towards nitrogen dioxide adsorption, reaching to 69 and 46 mg NO2/g in dry and wet conditions, respectively. The results of our study have also shown that the adsorption ability of carbonaceous adsorbents depends both on the method of preparation as well as on the textural parameters and acid–base properties of the adsorbents surface.read more
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The use of microwave radiation for obtaining activated carbons from sawdust and their potential application in removal of NO2 and H2S
TL;DR: In this paper, the effect of activation temperature on the textural parameters, acid-base character of the surface and sorption properties of activated carbons was analyzed and the results obtained in this study have proved that a suitable choice of the pyrolysis and activation procedure of sawdust can give adsorbents with high capacity of nitrogen dioxide, reaching to 54.7 and 28.8 µm NO2/g in dry and wet conditions, respectively and low capacity of hydrogen sulphide of 4.1 and 6.2 µm H2S/g, respectively
Journal ArticleDOI
Physicochemical and adsorption properties of carbonaceous sorbents prepared by activation of tropical fruit skins with potassium carbonate
TL;DR: In this article, a series of new carbonaceous adsorbents was obtained by means of chemical activation of common tropical fruit peels with potassium carbonate, and the influence of the precursor on the porous structure development, acidic and basic surface group generation, as well as the sorptive properties of the adorbents prepared towards liquid pollutants, was tested.
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Nitrogen and sulfur self-doped porous carbon from brussel sprouts as electrode materials for high stable supercapacitors
TL;DR: Heteroatom self-doped porous carbon materials were synthesized for the first time via freeze drying technique, followed by carbonization of brussel sprouts under a nitrogen atmosphere.
Journal ArticleDOI
The influence of the promotion of N-modified activated carbon with iron on NO removal by NH3-SCR (Selective catalytic reduction)
Bogdan Samojeden,Teresa Grzybek +1 more
TL;DR: In this paper, new catalysts based on activated carbon, which may be used for tail-end SCR (Selective catalytic reduction), were studied, and they were modified by pre-oxidation, introduction of N-surface groups via impregnation with an aqueous solution of urea and subsequent impregnation with Fe(NO3)3 or Mn(No3)2.
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The preparation of waste biomass-derived N-doped carbons and their application in acid gas removal: focus on N functional groups
TL;DR: In this paper, the preparation of N-doped biochars derived from waste biomass and their application in acid gas removal (i.e., CO2, H2S, SO2, and NOx) are reviewed.
References
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Book
Activated Carbon Adsorption
TL;DR: In this paper, the authors present a detailed characterization of the carbon-oxygen surface groups and their properties on the surface of a solid surface of an activated carbon and its surface structure.
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Changes in surface chemistry of activated carbons by wet oxidation
TL;DR: A series of activated carbons with different degrees of activation were oxidized with H2O2, (NH4)2S2O8 and HNO3 in order to introduce different oxygen surface complexes as discussed by the authors.
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Surface Oxides of Carbon
TL;DR: In this paper, it was found that the reaction of oxygen with microcrystalline carbon at 400-450°C yields four groups of different acidities: strongly acidic, weakly acidic, carboxyl and carbonyl groups.
Journal ArticleDOI
Effect of different oxidizing agent treatments on the surface properties of activated carbons
TL;DR: In this paper, two commercially available activated carbon (activated charcoal cloth (ACC) and activated granular carbon(AGC)) were oxidized with different oxidizing agents viz., HNO 3, H 2 O 2 and (NH 4 ) 2 S 2 O 8, in order to introduce surface oxygen complexes.
Book
Carbon materials for catalysis
Philippe Serp,José L. Figueiredo +1 more
TL;DR: In this paper, the authors present a detailed analysis of the role of carbon in the performance of carbon-supported metal catalysts in a number of applications, including catalytic growth of carbon nanofibers and carbon gels.