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Abstract
Poly(vinyl chloride) (PVC) is ubiquitous in construction, cable insulation, and medical devices, yet it is among the least-recycled consumer plastics. Chemical recycling methods are needed for end-of-life waste PVC management, con-sidering that mechanical and thermochemical recycling methods are challenging. Toward this goal, we introduce an electrochemical approach for generating chlorine and hydrogen from waste PVC, drawing inspiration from producing chlorine from brine (chlor-alkali). At the cathode, methanol reduction generates hydrogen and methoxide—a potent base for PVC dechlorination at mild temperatures. At the anode, chloride oxidation generates chlorine in a paired electrolysis. By coupling electrolysis and dechlorination, we can convert waste PVC materials into commodity chemi-cals, offering a potentially scalable approach for electrochemical recycling of PVC.
Supplementary materials
Title
Supplemental Information
Description
All materials, synthetic, and electrochemical procedures, chlo-ride titration data, structural characterization (FTIR, TGA), electrochemical characterization, (K3Fe(CN)6 calibration curve, Tafel analysis, and RHE characterization can be found in the supporting information.
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