A combined chemo-enzymatic treatment for the oxidation of epoxy-based carbon fiber-reinforced polymers (CFRPs)
Sasipa Wongwattanarat, Andrea Schorn, Leon Klose, Camille Carré, Ana Malvis Romero, Andreas Liese, Pablo Pérez-García, Wolfgang R. Streit

TL;DR
This paper introduces a new two-step method to recycle epoxy-based carbon fiber composites using a chemical treatment and enzymes from beetle gut bacteria.
Contribution
The study presents a novel chemo-enzymatic approach using laccases from beetle gut metagenomes for epoxy resin oxidation.
Findings
A chemical pre-treatment with propionic acid and hydrogen peroxide successfully recovered embedded carbon fibers.
Three laccases from Ips typographus gut metagenome oxidized TGMDA-based epoxy resin scaffolds.
The combined method enabled clean carbon fiber retrieval and partial modification of pre-treated epoxy.
Abstract
Carbon fiber-reinforced polymers (CFRPs), particularly epoxy-based composites, have become essential in the aerospace, automotive, and wind energy industries due to their robust mechanical properties, and lightweight nature. However, there is a lack of recycling technologies that are environmentally sustainable while also ensuring the recovery of carbon fibers in their original state. Although certain bacterial and fungal strains can colonize epoxy polymers, enzymes capable of efficiently degrading these materials have not yet been reported. Consequently, there is an urgent need for an effective, sustainable, and biologically inspired solution for CFRP recycling. Here, a chemo-enzymatic two-step oxidation process was developed. A chemical pre-treatment with propionic acid and hydrogen peroxide was used to recover imbedded carbon fibers. Additionally, three novel bacterial laccases…
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Taxonomy
TopicsMicroplastics and Plastic Pollution · Natural Fiber Reinforced Composites · Fiber-reinforced polymer composites
