Metal salt-modified biochars derived from agro-waste for effective congo red dye removal

Anionic Congo red dye (CR) is not effectively removed by conventional adsorbents. Three novel biochars derived from agro-waste (Acacia auriculiformis), modified with metal salts of FeCl3, AlCl3, and CaCl2 at 500 degrees C pyrolysis have been developed to enhance CR treatment. These biochars revealed significant differences in effluents compared to BC, which satisfied initial research expectations (P < 0.05). The salt concentration of 2 M realized optimal biochars with the highest CR removal of 96.8%, for AlCl3-biochar and FeCl3-biochar and 70.8% for CaCl2-biochar. The modified biochars were low in the specific surface area (137.25-380.78 m(2) g(-1)) compared normal biochar (393.15 m(2) g(-1)), had more heterogeneous particles and successfully integrated metal oxides on the surface. The CR removal increased with a decrease in pH and increase in biochar dosage, which established an optimal point at an initial loading of 25 mg g(-1). Maximum adsorption capacity achieved 130.0, 44.86, and 30.80 mg g 1 for BFe, BCa, and BAl, respectively. As magnetic biochar, which is easily separated from the solution and achieves a high adsorption capacity, FeCl3-biochar is the preferred biochar for CR treatment application.

Automated summary

Novel biochars derived from agro-waste like Acacia auriculiformis, modified with metal salts of FeCl3, AlCl3, and CaCl2 at 500 degrees C pyrolysis, were developed to enhance CR treatment. These modified biochars showed improved performance in CR removal, with FeCl3-biochar identified as the preferred choice for application due to its high adsorption capacity and magnetic properties.