Abstract Laccase was immobilized on Electropositive granular media (EGM) consisting of Al(OH)3 precipitate and silica gel through electrostatic adsorption to obtain Lac-EGM with high stability, sustainable recycling capacity, and outstanding… Click to show full abstract
Abstract Laccase was immobilized on Electropositive granular media (EGM) consisting of Al(OH)3 precipitate and silica gel through electrostatic adsorption to obtain Lac-EGM with high stability, sustainable recycling capacity, and outstanding environmental tolerance, which could be sealed in a polypropylene filter cartridge for convenient storage and industrial application. Lac-EGM was highly effective in decontaminating not only sarin (GB) and soman (GD), but also V-agents (VX), reaching a removal efficiency of nearly 100% within 30 min, and the toxicities of corresponding decontamination products were significantly reduced. It was the hydroxyl nucleophilic attack that contributed a lot in decontaminating nerve agents, with P-F bond fracture occurring in GB and GD degradation, and P-S bond fracture in VX degradation. Lac-EGM possessed both the inherent remarkable biotechnological applicability of laccase and nucleophilic attack advantages, which highlighted the potential value of nucleophilic attack reactions as a mechanism for the decontamination of nerve agents and broad prospects for water treatment application.
               
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