Cutinases for Biocatalytic Polycarbonate Hydrolysis: Empowering Circular Economy

This study presents an enzymatic approach to efficiently recycle polycarbonate (PC), a widely used high-performance polymer. Screening identifies cutinase enzymes as effective catalysts for PC hydrolysis, recovering valuable bisphenol A under mild conditions. Dimethyl sulfoxide addition enables complete PC conversion, contributing to innovative circular economy solutions.

While synthetic polymers are indispensable for the sustainable transformation of society, the increasing production needs to be combined with adequate recycling strategies. As conventional recycling processes often result in quality losses or are complicated by the presence of additives and other polymers, there is a high need for the development of new technologies. This study presents a first efficient approach to enzymatically recycle polycarbonate (PC), a high-performance polymer. Through an extensive enzyme screening, 9 cutinases are found to exhibit hydrolytic activity toward PC in aqueous buffer enabling the recovery of bisphenol A (BPA) as a valuable monomer under mild reaction conditions. Notably, the enzymes ThcCut1-ACCG and LCC-ICCG demonstrate excellent performance by achieving conversions of 20–40% under optimized reaction conditions. Impressively, full conversion of PC can be achieved by supplementing dimethyl sulfoxide (DMSO; 30% v/v). These findings represent an excellent foundation to develop sustainable PC recycling processes for the circular economy.

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