Design, synthesis, and evaluation of amino-terminated oxidization modified peanut shell as adsorbent of microcolumn for Sudan-I detection and efficient recovery.

Sudan I, as a common pigment, is harmful to people's health. In this work, the alkaline peanut shell as the base, epichlorohydrin and DMF as the solvent, with HBP-NH2 as the ligand to compose terminal amino-branched peanut shell. Optimization of the modified peanut shell was carried out at different temperatures, different molar ratios of reagents, and different time intervals in HBP-NH2 using response surface methodology (RSM) for the first attempt. The structure of modified peanut shell was characterized by FT-IR and elemental analysis. The adsorption properties of the modified peanut shell for Sudan I were investigated by batch and column experiments. Batch adsorption results suggested that modified peanut shell had a high adsorption capability for Sudan I and its maximum saturated adsorption capacity was 248.14 mg/g at 308 K, estimated from the Langmuir model. The modified peanut shell and its metal complexes were studied by TGA and SEM. Furthermore, the modified peanut shell can be eluted easily using 2 mol/L NaOH. HBP-NH2-P not only has a potential application for the selective removal of Sudan I from waste solutions but also has an application in the analysis and detection areas. [ABSTRACT FROM AUTHOR]