Correlation Between Onset Oxidation Temperature (OOT) and Fourier Transform Infrared Spectroscopy (FTIR) for Monitoring the Restabilization of Recycled Low-density Polyethylene (LDPE)

Plastic waste is a serious environmental issue, and polyethylene (PE) is a significant component. The chemically inert nature of PE makes its recycling/upcycling process challenging. Thus, a novel method was demonstrated that enables the selective electrochemical functionalization and deconstruction of lowdensity polyethylene (LDPE) by using low-cost transition metal electrocatalysts at room temperature (23 � 2 °C) and low cell voltage (� 1 V). Three different electrode and electrolyte combinations were studied for the oxidation of LDPE: copper metal/copper (II) ions, nickel metal/nickel (II) ions, and stainless steel/iron (II) and (III) ions. The copper and nickel electrode/ electrolyte pairs showed a promising capability for oxidation and chain-scission of LDPE. In contrast, the stainless-steel and iron electrode/electrolyte pair showed no activity towards LDPE oxidation or depolymerization. The electrolysis of LDPE offers a new vista for the depolymerization and upcycling of plastics, further understanding of the process is needed.

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Electrochemical Oxidation and Functionalization of Low‐Density Polyethylene

Rahimzadeh

Ortega‐Ramos

Haque

et al. 2023

ChemElectroChem

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Long-term stability of UHMWPE fibers

Forster

Chin

et al. 2015

Polymer Degradation and Stability

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Characterization and chemometric modelling of mechanically recycled polypropylene for automotive manufacturing

Bunjes

Arndt

Geertz

et al. 2022

Polymer

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Correlation Between Onset Oxidation Temperature (OOT) and Fourier Transform Infrared Spectroscopy (FTIR) for Monitoring the Restabilization of Recycled Low-density Polyethylene (LDPE)

Cited by 5 publications

References 9 publications

Electrochemical Oxidation and Functionalization of Low‐Density Polyethylene

Electrochemical Oxidation and Functionalization of Low‐Density Polyethylene

Long-term stability of UHMWPE fibers

Characterization and chemometric modelling of mechanically recycled polypropylene for automotive manufacturing

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