Adsorptive characteristics and mechanisms of cadmium in water onto magnesium- and ultrasound-modified rice straw biochars

Immediate resolution of Cd²⁺ pollution presents a pressing necessity. In this study, physical (ultrasonic) and chemical (magnesium loading) modification techniques were used to prepare modified rice straw biochar for effective adsorption of Cd²⁺ from wastewater. XRD, FTIR, XPS, SEM, and N₂ adsorption were used to analyze the modified biochar and assess its adsorption capacity. The results showed that the adsorption capacity of ultrasonic magnesium-modified biochar (UMBC) reached 180.49 mg/g according to Langmuir isothermal modeling, which was 3.8 times higher than the adsorption capacity of the original biochar (BC) of 47.64 mg/g, 3 times higher than that of the ultrasonic-modified biochar (UBC) of 61.14 mg/g, and 1.3 times higher than that of the magnesium-modified biochar (MBC) of 138.51 mg/g. Ion exchange and precipitation were the primary adsorption mechanisms of UMBC. The results of the suggested secondary adsorption kinetics demonstrate that chemisorption may be the predominant mechanism for Cd²⁺ adsorption by UMBC. This study opens new avenues for utilizing this biochar in practical applications.