Rapid and efficient adsorption of methylene blue dye from aqueous solution by hierarchically porous, activated starbons?: Mechanism and porosity dependence

Hierarchically porous activated Starbons (R) derived from starch are found to make excellent adsorbents for methylene blue, even in the presence of other dyes and inorganic salts, highlighting their potential to be used in water purification. The optimal material (S950C90) has a methylene blue adsorption capacity (891 mg g-1) almost nine times higher than that of unactivated S800 and four times higher than that of commercial activated carbon at 298 K. The adsorption of methylene blue onto optimal materials (S950C90 and S800K4) reaches equilibrium within 5 min. Adsorption data for all the adsorbents show a good fit to the Freundlich isotherm which allows the Gibbs free energies of adsorption to be calculated. The adsorption capacities increase as the pH of the methylene blue solution increases, allowing the dye to be desorbed by treatment with acidic ethanol and the Starbon (R) materials reused. Porosimetry and SEM-EDX imaging indicate that methylene blue adsorbs throughout the surface and completely fills all the micropores in the Starbon (R) adsorbent. The methylene blue adsorption capacities show excellent correlations with both the BET surface areas and the micropore volumes of the materials.

Automated summary

Hierarchically porous activated Starbons (R) derived from starch show excellent adsorption capacity for methylene blue, making them promising adsorbents for water purification. The optimal material (S950C90) has a nine-fold higher adsorption capacity than unactivated S800 and a four-fold higher capacity than commercial activated carbon. The adsorption process reaches equilibrium within 5 minutes and the adsorbents can be regenerated using acidic ethanol.