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Abstract
In this study, we present an efficient approach for the depolymerization of poly(methyl methacrylate) (PMMA) copolymers synthesized via conventional radical polymerization. By incorporating low mol% phthalimide ester-containing monomers during the polymerization process, colorless and transparent polymers closely resembling unfunctionalized PMMA are obtained which can achieve >95% reversion to methyl methacrylate (MMA). Notably, our catalyst-free bulk depolymerization method exhibits exceptional efficiency, even for high molecular weight polymers, including ultra-high molecular weight (10^6–10^7 g/mol) PMMA, where near quantitative depolymerization is achieved. Moreover, this approach yields polymer by-products of significantly lower molecular weight, distinguishing it from depolymerization methods initiated from chain ends. Furthermore, we extend our investigation to polymethacrylate networks, demonstrating high extents of depolymerization. This innovative depolymerization strategy offers promising opportunities for the development of sustainable and high-performance polymethacrylate materials, holding great potential for various applications in polymer science.
Supplementary materials
Title
Supplementary Information
Description
Materials, instrumentation, synthetic procedures, and additional characterization, including polymerization kinetics, GPC data, and NMR spectra.
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