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
Innovative Double Patterning Strategies for Integrated Circuit Manufacture. The global computer chips industry is predicted to be worth in excess of 1.5 trillion USD by 2030. Despite its success, the industry is under threat due to rising costs of manufacture of the latest chips, in large part because of the complexity of the manufacturing process. This project aims to introduce new polymers for production of computer chips and, in collaboration with our industry partner, develop new methods of ....Innovative Double Patterning Strategies for Integrated Circuit Manufacture. The global computer chips industry is predicted to be worth in excess of 1.5 trillion USD by 2030. Despite its success, the industry is under threat due to rising costs of manufacture of the latest chips, in large part because of the complexity of the manufacturing process. This project aims to introduce new polymers for production of computer chips and, in collaboration with our industry partner, develop new methods of manufacture to enable the next generation of chips. The project has potential to generate valuable intellectual property, support new processes and equipment for our partners, and help train the next generation of Australian researchers in the growing field of polymeric nanotechnology. Read moreRead less