Bioremediation of organic pollutants by laccase-metal–organic framework composites: A review of current knowledge and future perspective

[Display omitted] •Laccase immobilized onto MOFs are widely used for wastewater treatment.•Integration of MOFs and laccase is poised to play a pivotal role in bioremediation.•Co-immobilization of laccase and mediator allow removal of non-phenolic pollutants. Immobilized laccases are widely used as g...

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Veröffentlicht in:Bioresource technology 2024-08, Vol.406, p.131072, Article 131072
Hauptverfasser: Aghaee, Mehdi, Salehipour, Masoud, Rezaei, Shahla, Mogharabi-Manzari, Mehdi
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Sprache:eng
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Zusammenfassung:[Display omitted] •Laccase immobilized onto MOFs are widely used for wastewater treatment.•Integration of MOFs and laccase is poised to play a pivotal role in bioremediation.•Co-immobilization of laccase and mediator allow removal of non-phenolic pollutants. Immobilized laccases are widely used as green biocatalysts for bioremediation of phenolic pollutants and wastewater treatment. Metal-organic frameworks (MOFs) show potential application for immobilization of laccase. Their unique adsorption properties provide a synergic effect of adsorption and biodegradation. This review focuses on bioremediation of wastewater pollutants using laccase-MOF composites, and summarizes the current knowledge and future perspective of their biodegradation and the enhancement strategies of enzyme immobilization. Mechanistic strategies of preparation of laccase-MOF composites were mainly investigated via physical adsorption, chemical binding, and de novo/co-precipitation approaches. The influence of architecture of MOFs on the efficiency of immobilization and bioremediation were discussed. Moreover, as sustainable technology, the integration of laccases and MOFs into wastewater treatment processes represents a promising approach to address the challenges posed by industrial pollution. The MOF-laccase composites can be promising and reliable alternative to conventional techniques for the treatment of wastewaters containing pharmaceuticals, dyes, and phenolic compounds. The detailed exploration of various immobilization techniques and the influence of MOF architecture on performance provides valuable insights for optimizing these composites, paving the way for future advancements in environmental biotechnology. The findings of this research have the potential to influence industrial wastewater treatment and promoting cleaner treatment processes and contributing to sustainability efforts.
ISSN:0960-8524
1873-2976
1873-2976
DOI:10.1016/j.biortech.2024.131072