Comparative study on composition, structure, and adsorption behavior of activated carbons derived from different synthetic waste polymers

Abstract: The composition, structure, and adsorption behavior of activated carbons (ACs) derived from three different types of waste polymers, i.e., tire rubber (TR), polyvinyl chloride (PVC), and polyethyleneterephtalate (PET), by KOH activation were compared. The AC derived from PET exhibited the largest surface area (2831m2/g) and pore volume (1.68cm3/g) due to the homogenous aromatic composition of PET. The AC derived from PVC exhibited relatively lower surface area (2666m2/g) but more narrowed pore size distribution (2–3nm). The complex composition and high ash content of tire particles resulted in AC product with significantly lower surface area (398.5m2/g) and heterogeneous pore width. Adsorption data of methylene blue (MB) were fitted well by Langmuir equation, indicating monolayer coverage on the ACs. The high oxygen content of PET-derived AC heavily affected its adsorption to MB and iodine. Due to the remarkable surface area and highly mesoporous structures, ACs based on both PET and PVC exhibited much higher adsorption capacities than that of TR and commercial coal-based AC (F400). This study demonstrates that the properties of ACs are highly dependent on their starting polymers and the potential of converting synthetic polymer waste into effective adsorbents for environmental remediation and cleanup. [Copyright &y& Elsevier]