Abstract
Polyacrylonitrile (PAN) hollow fibers were pretreated with ammonium dibasic phosphate, then further oxidized in air, carbonized in nitrogen, and activated with carbon dioxide. The effects of activation temperature of a precursor fiber on the microstructure, specific surface, poreβsize distribution, and adsorption properties of PANβbased activated carbon hollow fibers (PANβACHF) were studied in this work. After the activation process, the BET surface area of the PANβACHF and surface area of mesopores in the PANβACHF increased very remarkably and reached 1422 m^2^ g^β1^ and 1234 m^2^ g^β1^, respectively, when activation temperature is 1000Β°C. The adsorptions to creatinine and VB~12~ of PANβACHF were much high and reached 99 and 84% respectively. In PANβACHF which went through the activation at 700Β°C and 800Β°C, the micropore filling mainly occurred at low relative pressures, multimolecular layer adsorption occurred with the increasing of relative pressure, and the filling and emptying of the mesopores by capillary condensation occurred at high relative pressures. But in PANβACHF which went through the activation at 900Β°C, a mass of mesopores resulted in the large pore filling by capillary condensation. The dominant pore sizes of mesopores in PANβACHF are from 2 nm to 5 nm. Β© 2006 Wiley Periodicals, Inc. J Appl Polym Sci 100: 3778β3783, 2006