Porous Structure of Activated Carbons and Tert-butylbenzene Breakthrough Dynamics

Chars, prepared by pyrolysis of prune pits at I or lS"C/min to 500, 700 or 9OO"C, were subsequently gasified by CO, at 900°C. Pyrolysis conditions did not significantly affect the porosity developed for a given mass loss due specifically to gasification reactions, i.e. excluding additional pyrolytic

A set of samples, including active carbon and ASC-whetlerites, both in their original form and after extraction, all with an identical carbonaceous skeleton, was investigated to specify the porous structure and the deposition of the impregnant. Mercury porosimetry and adsorption of nitrogen and carb

## Abstract In this article, activated carbon aerogels (ACAs) were prepared by CO~2~ activation. Their pore structures were investigated by N~2~ adsorption–desorption analysis. ACAs have excellent microporosity (e.g. 0.36 cm^3^/g) and mesoporosity (e.g. 1.72 cm^3^/g). Adsorption characteristics of

The porous structure of a series of commercial activated carbon fibers (ACFs) (with increasing surface area) was studied using both direct and indirect methods. The porous structure was characterized directly using scanning tunneling microscopy (STM) techniques and indirectly using the Dubinin-Radus

Nitrogen isotherms have been determined at 77 K on four active carbons, used as adsorbents in gas masks, before and after n-nonane ~readsorption. The four carbons contain both micro and mesopores. After n-nonane preadsorption, mesoporosity is still observed, together with a, low pressure hysteresis