Chitin membrane for efficient laccase immobilization and synergistic removal of 17α-ethynylestradiol from water-based solutions

Abstract

A unique chitin–laccase membrane was fabricated as an environmentally friendly biocatalytic platform, utilizing 1-butyl-3-methylimidazolium acetate as the solvent for chitin. Observations using scanning electron microscopy showed that the chitin-laccase membrane possessed a uniform and densely packed structure. Based on the presence of FT-IR signals at 1020 cm−1 and changes in the intensity of signals at 1540 cm−1 and 1645 cm−1, the effectiveness of laccase immobilization was confirmed. FT-IR mapping revealed that the enzyme is evenly distributed on the surface of the membrane. The catalytic activity of the native enzyme and laccase immobilized using the membrane was determined based on a model reaction, and the retention of high activity was confirmed using real solutions. Laccase immobilized using the chitinous membrane retained over 60 % of its initial activity after 30 days of storage at 4 °C. By contrast, the free enzyme retained <40 % of its initial activity. Moreover, the activity of chitin-laccase system remained at 85 % after 5 cycles. This novel chitin–laccase combination was tested in the 17α-ethynylestradiol (EE2) removal from water-based solutions. It was found that EE2 underwent synergistic degradation through concurrent adsorption and biocatalytic transformation, with enzymatic conversion as the dominant mechanism.