Abstract: A new magnetic Cu(II) ion imprinted composite adsorbent (Cu(II)-MICA) was synthesized with waste fungalmycelium from industry, chitosan (CS) and Fe3O4 nanoparticles combining metal imprinting technology. It wascompared with its corresponding single component and magnetic non-imprinted composite asdsorbent (MNICA).Batch adsortption studies were performed to evaluate adsorption isotherms, adsorption selectivity, adsorption kinetics,magnetic settlement and desorption characters. The Langmuir adsorption isotherm fit well in the experimentalequilibrium data. The maximum sorption calculated from the Langmuir isotherm was 71.36 mg/g and 44.78 mg/gfor Cu(II)-MICA and MNICA in their sole Cu(II) solution at 25 °C and pH 5.5. Competitive sorption of multi-ionsstudies indicated that the Cu(II)-MICA had high single selectivity sorption for Cu(II). It showed metal ion affinityin the competitive conditions of Cu(II)>Zn(II)>Co(II)>Ni(II). Kinetics studies showed that the adsorption processobeyed pseudo-second-order rate mechanism with an initial adsorption rate of 253.2 and 198.0 mg/g min for Cu(II)-MICA and Cu(II)-MNICA, respectively. Results showed that Cu(II)-MICA was a material of efficient, low-cost,convenient separation under additional magnetic field and could be reused for five times with about 14-15%regeneration loss
Template and target information: Copper ions, Cu(II)
Author keywords: Fe3O4 magnetic nanopaticels, Metal ion imprinted, adsorbent, Cu(II), Competitive, adsorption