Flipping the mattress: infinite polyurethane recycling by synthetic biology. Australia is covered in billions of tonnes of plastic and yet <10% is recycled today. Polyurethane (PU) is ubiquitous in our everyday lives, from lacquer coatings to elastane clothing to durable foam padding in car seats, cushions and mattresses. Currently, there are few avenues for PU recycling and much ends up in landfill e.g., a single mattress produces 15-20kg of PU foam waste. Luckily, biodegradation of PU can occu ....Flipping the mattress: infinite polyurethane recycling by synthetic biology. Australia is covered in billions of tonnes of plastic and yet <10% is recycled today. Polyurethane (PU) is ubiquitous in our everyday lives, from lacquer coatings to elastane clothing to durable foam padding in car seats, cushions and mattresses. Currently, there are few avenues for PU recycling and much ends up in landfill e.g., a single mattress produces 15-20kg of PU foam waste. Luckily, biodegradation of PU can occur naturally via various microbial means and from insects, like Galleria mellonella larvae. The overall aim of this research project is to understand plastic biodegradation and translate nature’s solutions into flexible and efficient synthetic enzyme technologies that can sustainably recycle commonly used PU foams. Read moreRead less
Carbon fibre thermoplastics as next-generation carbon fibre composites. By combining sizing, chemical grafting, and nano-reinforcement strategies, this project develops chemically and thermally robust thermoplastic interfacial sizing for carbon fiber/thermoplastic composites for rapid manufacturing. Thermostamped carbon fiber/thermoplastic composite prototypes will be used to verify the sizing. In order to demonstrate industrial viability, recyclability and reprocessability analyses will be cond ....Carbon fibre thermoplastics as next-generation carbon fibre composites. By combining sizing, chemical grafting, and nano-reinforcement strategies, this project develops chemically and thermally robust thermoplastic interfacial sizing for carbon fiber/thermoplastic composites for rapid manufacturing. Thermostamped carbon fiber/thermoplastic composite prototypes will be used to verify the sizing. In order to demonstrate industrial viability, recyclability and reprocessability analyses will be conducted. This sizing method can enable high-performance thermoplastic composites in nonaerospace applications with its atomistic level modelling and comprehensive characterisation routine. A key objective of this study is to produce sustainably manufactured composite materials that are also commercially relevant.Read moreRead less
Sequence-Defined Polymers with Optical Information Readout. The project aim is to introduce the first optically readable sequence-defined polymers based on fluorophore excimers, whose information content can be read as simply as conventional barcodes. These macromolecular barcodes, embedded in solid polymer matrices, will overcome the current limitations of reading information from synthetic macromolecules. An interdisciplinary effort will fuse chemistry, law, and criminology to develop the tec ....Sequence-Defined Polymers with Optical Information Readout. The project aim is to introduce the first optically readable sequence-defined polymers based on fluorophore excimers, whose information content can be read as simply as conventional barcodes. These macromolecular barcodes, embedded in solid polymer matrices, will overcome the current limitations of reading information from synthetic macromolecules. An interdisciplinary effort will fuse chemistry, law, and criminology to develop the technology in ways that are expected to address illicit plastic waste trafficking – ending the anonymity of polymer waste by creating a regulatory and criminological paradigm for tracing plastic waste to hold actors in the value chain responsible.Read moreRead less