4.8 Article

A chemical approach for the future of PLA upcycling: from plastic wastes to new 3D printing materials

Journal

GREEN CHEMISTRY
Volume 24, Issue 22, Pages 8716-8724

Publisher

ROYAL SOC CHEMISTRY
DOI: 10.1039/d2gc01745h

Keywords

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Funding

  1. China Scholarship Council (CSC) [201807565017]
  2. LC Mass spectrometry testing
  3. Department of Energy (DOE EERE), Office of Energy Efficiency and Renewable Energy [DE-EE0008931]

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As the demand for PLA increases, it is important to consider post-consumer disposal strategies to minimize environmental impact. This study presents a simple method to upcycle PLA waste into 3D printable materials through aminolysis and derivatization, reducing the need for disposal.
As the demand for PLA increases, post-consumer disposal strategies must be carefully considered. While we would love to embrace a bioplastic future, we also need to tread carefully. Though PLA is widely claimed to be biodegradable, full degradation often requires conditions not typically found in landfills or industrial composting. Therefore, it will negatively impact the environment if treated carelessly. In this work, we report a simple PLA upcycling path to turn existing PLA wastes into new 3D printable materials within 48 hours. The ester bonds of PLA can be cleaved efficiently via aminolysis. The obtained monomeric compound was derivatized with methacrylic anhydride, which introduces double bonds and thus a cross-linkable monomer is obtained. In combination with a comonomer and initiator, a photocurable resin is produced. The resin can be fed into any commercially available photocuring 3D printer. The 3D printed parts derived from PLA wastes exhibit impressive performances with a tensile strength of 58.6 MPa, Young's modulus of 2.8 GPa, and glass transition at similar to 180 degrees C. Our work demonstrates a new route to active upcycling of PLA while minimizing the need for disposal.

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