Author/Authors :
Purewal, J J California Institute of Technology - Division of Engineering and Applied Science, USA , Kabbour, H California Institute of Technology - Division of Engineering and Applied Science, USA , Vajo, J J HRL Laboratories, LLC., USA , Ahn, C C California Institute of Technology - Division of Engineering and Applied Science, USA , Fultz, B California Institute of Technology - Division of Engineering and Applied Science, USA
Abstract :
Pore size distributions (PSD) and supercritical H2 isotherms have been measured for two activated carbon fiber (ACF) samples. The surface area and the PSD both depend on the degree of activation to which the ACF has been exposed. The low-surface-area ACF has a narrow PSD centered at 0.5 nm, while the high-surface-area ACF has a broad distribution of pore widths between 0.5 and 2 nm. The H2 adsorption enthalpy in the zero-coverage limit depends on the relative abundance of the smallest pores relative to the larger pores. Measurements of the H2 isosteric adsorption enthalpy indicate the presence of energy heterogeneity in both ACF samples. Additional measurements on a microporous, coconut-derived activated carbon are presented for reference
