CNR ExploRA

Articolo in rivista, 2017, ENG, 10.1080/1536383X.2017.1353975

Adsorption of dinitrogen tetroxide on activated carbon fabric derived from novolacs

Ursini Ornella; Angelini Giancarlo; Cataldo Franco

CNR - Istituto di Metodologie Chimiche, Montelibretti, Rome, Italy; Actinium Chemical Research Institute, Rome, Italy

Activated carbon fabric (ACF) obtained from novolacs carbonization was used as substrate for N2O4 adsorption. In one case the ACF was soaked and impregnated with liquid N2O4 (ACF-liq-N2O4) reaching an adsorbate loading of about 1400 mg /g(ACF). Another ACF was prepared by adsorption of a gaseous stream of N2O4 (ACF-gas-N2O4). This time the adsorbate loading was found at 757 mg N2O4/g(ACF). The two samples were studied with FT-IR spectroscopy before and after the desorption. The amount of N2O4 in the ACF samples was determined gravimetrically, thermogravimetrically (TGA) and by wet chemical analysis after hydrolysis of the samples in water. The N(2)O(4)z/NO2 desorption from the ACF was studied by TGA-FTIR analytical technique and it was found that the NO2 desorption starts at low temperatures and reaches a peak at 158-170 degrees C. In the correspondence of the NO2 release peak starts also the gasification of the oxygenated groups present in the ACF with a simultaneous peak in the emission of CO2 and CO. From the DSC analysis of ACF-liq-N2O4 and ACF-gas-N2O4 the heat of adsorption of N2O4 was determined and found at -21.8 kcal/mol for ACF-liq-N2O4 and -16.2 kcal/mol for ACF-gas-N2O4. The electrical resistivity of the ACF before and after the N2O4 adsorption was measured.

Fullerenes, nanotubes, and carbon nanostructures (Print) 25 (10), pp. 589–601