Removal of Bisphenol A Using Laccase-Catalyzed Electrooxidation in the Presence of Humic Acid

Bisphenol A (BPA) is an endocrine-disrupting chemical that has caught a lot of attention recently due to its toxicity and ubiquitous presence in the environment. Therefore, removal of BPA from contaminated environments such as water is of high importance. In this study, an alginate/pectin anode containing immobilized laccase is prepared, and the anode is applied in an electroenzymatic oxidation system for BPA degradation. After 4 h, the laccase-alginate/pectin system demonstrates a much higher BPA removal efficiency (95%) than the similar system without immobilized laccase (50%, control system). The effects of humic acids (HA) on BPA degradation are also observed. HA may have accelerated the laccase-catalyzed coupling reaction between BPA and reactive radical intermediates, which results in increased BPA removal efficiency (92% after 150 min). It is demonstrated that laccase immobilization on an alginate/pectin electrode can greatly enhance BPA removal via electrooxidation. Humic acids which are abundantly present in nature can also make this removal process faster. Overall, this study highlights the great application potential of laccase-immobilized bioelectrodes for BPA removal in conditions close to real-life scenarios.

Automated summary

An alginate/pectin anode containing immobilized laccase is prepared for the electroenzymatic oxidation system, showing a much higher BPA removal efficiency compared to the control system without immobilized laccase. The study also demonstrates the accelerating effect of humic acids on BPA degradation. Overall, this research highlights the potential of laccase-immobilized bioelectrodes for efficient BPA removal.