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Removal of 241 Am from Aqueous Solutions by Adsorption on Sponge Gourd Biochar.

Maria PhilippouIoannis PashalidisDimitrios Kalderis
Published in: Molecules (Basel, Switzerland) (2023)
Luffa cylindrica biomass was converted to biochar and the removal of 241 Am by pristine and oxidized biochar fibers was investigated in laboratory and environmental water samples. This species has the added advantage of a unique microsponge structure that is beneficial for the production of porous adsorbents. The main purpose of this study was to valorize this biomass to produce an efficient adsorbent and investigate its performance in radionuclide-contaminated waters. Following the preparation of Am 3+ solutions at a concentration of 10 -12 mol/L, the adsorption efficiency ( K d ) was determined as a function of pH, adsorbent mass, ionic strength, temperature, and type of aqueous solution by batch experiments. At the optimum adsorbent dose of 0.1 g and pH value of 4, a log 10 K d value of 4.2 was achieved by the oxidized biochar sample. The effect of temperature and ionic strength indicated that adsorption is an endothermic and entropy-driven process (Δ H ° = -512 kJ mol -1 and Δ S ° = -1.2 J K -1 mol -1 ) leading to the formation of inner-sphere complexes. The adsorption kinetics were relatively slow (24 h equilibrium time) due to the slow diffusion of the radionuclide to the biochar surface and fitted well to the pseudo-first-order kinetic model. Oxidized biochar performed better compared to the unmodified sample and overall appears to be an efficient adsorbent for the treatment of 241 Am-contaminated waters, even at ultra-trace concentrations.
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