Micropore Size Distribution of Activated Carbons Impregnated After Carbonization

We measured hydrogen storage on five well-known commercial carbon materials (CCMs) and we compared their performances to those obtained on our lab-made activated carbons (ACs). H 2 uptake of our lab-made ACs was always higher than that of CCMs of similar S BET , our best AC reached 6 wt.% H 2 excess

This work presents the different effects of steam and carbon dioxide activation of a char in both the development of microporosity and the micropore size distribution using immersion microcalorimetry of liquids with different molecular size (benzene, 2,2 dimethylbutane, iso-octane and a-pinene). The

data for the adsorption of nitrogen and methane on microporous carbons is interpreted with the aid of molecular modelling. Significant differences are found between the pore size distributions obtained from an analysis of the nitrogen adsorption isotherm of the carbon PRC16 and the pore size distrib

The adsorption isotherms of N, at 77K, CO, at 251, 273 and 298K, and SO, at 262 and 273K have been determined on a series of physically activated carbons with a wide range of micropore size distributions. Since the series includes carbons with very high burn-off, it shows the problems involved in th