Gabriela Hotová scite author profile

The developed quantitative TG-MS analysis was used for the determination of the surface oxidation degree of activated carbon cryogels. The surface chemistry of a prepared carbon cryogels pyrolyzed at 400 and 500 °C was modified using HPO, Fenton-like reaction, (NH)SO with HSO and HNO with HO into a different surface oxidation degree. The influence of activation method and the amount of oxygen surface groups were characterized by elemental analysis, immersion calorimetry, water vapor adsorption, and Boehm titration. The obtained results from these methods were compared with the amount of surface oxygen determined by TG-MS. It was found out, that with the more intensive oxidation method (Fenton < (NH)SO with HSO < HNO with HO) the concentration of oxygen-containing surface groups increases, which lead to considerably higher parameters of immersion heat, amount of adsorbed water and acidity of the sample surface. The HPO treatment of carbon cryogels causes no significant changes in the surface chemistry. The results obtained from the TG-MS analysis imply the good agreement with the results obtained from other used methods. It was proved that the quantitative TG-MS analysis could be a useful tool for the characterization of the surface of the carbonaceous materials.

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Effect of pyrolysis temperature and thermal oxidation on the adsorption properties of carbon cryogels

Hotová

Slovák

2015

Thermochimica Acta

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Gabriela Hotová

Oxygen surface groups analysis of carbonaceous samples pyrolysed at low temperature

Quantitative TG-MS analysis of evolved gases during the thermal decomposition of carbon containing solids

The role of the oxygen functional groups in adsorption of copper (II) on carbon surface

Determination of the Surface Oxidation Degree of the Carbonaceous Materials by Quantitative TG-MS Analysis

Effect of pyrolysis temperature and thermal oxidation on the adsorption properties of carbon cryogels

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