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One‐pot method for upcycling polycarbonate waste to yield high‐strength, <scp>BPA</scp>‐free composites

Katelyn M. Derr, Rhett C. Smith

2023Journal of Polymer Science14 citationsDOIOpen Access PDF

Abstract

Abstract Environmental damage caused by waste plastics and downstream chemical breakdown products is a modern crisis. Endocrine‐disrupting bisphenol A (BPA), found in breakdown products of poly(bisphenol A carbonate) (PC), is an especially pernicious example that interferes with the reproduction and development of a wide range of organisms, including humans. Herein we report a single‐stage thiocracking method to chemically upcycle polycarbonate using elemental sulfur, a waste product of fossil fuel refining. Importantly, this method disintegrates bisphenol A units into monoaryls, thus eliminating endocrine‐disrupting BPA from the material and from any potential downstream waste. Thiocracking of PC (10 wt%) with elemental sulfur (90 wt%) at 320 °C yields the highly crosslinked network SPC 90 . The composition, thermal, morphological, and mechanical properties of SPC 90 were characterized by FT‐IR spectroscopy, TGA, DSC, elemental analysis, SEM/EDX, compressive strength tests, and flexural strength tests. The composite SPC 90 (compressive strength = 12.8 MPa, flexural strength = 4.33 MPa) showed mechanical strengths exceeding those of commercial bricks and competitive with those of mineral cements. The approach discussed herein represents a method to chemically upcycle polycarbonate while deconstructing BPA units, and valorizing waste sulfur to yield structurally viable building materials that could replace less‐green legacy materials.

Topics & Concepts

PolycarbonateBisphenol AFlexural strengthCompressive strengthMaterials scienceBisphenolSulfurComposite materialYield (engineering)CelluloseElemental analysisEpoxyChemistryOrganic chemistryMetallurgybiodegradable polymer synthesis and propertiesSynthesis and properties of polymersPolymer composites and self-healing
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