Sequence-defined polymers and green chemistry. This project aims to synthesise polymers that have precise chemical structure and mimic the biological activities of natural biopolymers like peptides and proteins. Monomer sequence regulation in these natural biopolymers is important in biology and necessary for crucial features of life, such as molecular recognition, self-replication and catalysis. Current artificial techniques for biopolymer synthesis are time consuming and present low yields at ....Sequence-defined polymers and green chemistry. This project aims to synthesise polymers that have precise chemical structure and mimic the biological activities of natural biopolymers like peptides and proteins. Monomer sequence regulation in these natural biopolymers is important in biology and necessary for crucial features of life, such as molecular recognition, self-replication and catalysis. Current artificial techniques for biopolymer synthesis are time consuming and present low yields at high costs. This project expects its new materials will increase manufacturing sustainability, chemical diversity and industrial viability; produce health benefits for Australia by improving chemotherapy and diagnosis for diseases; and benefit the Australian economy.Read moreRead less
Chiral synthetic macromolecules - control of sequence and stereochemistry. This project aims to assemble a library of novel chiral polymers mimicking natural peptides with precisely controlled primary structures using emerging synthetic technologies. A systematic investigation of these synthetic materials will provide an in-depth understanding of how sequence and stereochemistry influence chemical and physical properties. Employing rational design principles, desired functionality could be optim ....Chiral synthetic macromolecules - control of sequence and stereochemistry. This project aims to assemble a library of novel chiral polymers mimicking natural peptides with precisely controlled primary structures using emerging synthetic technologies. A systematic investigation of these synthetic materials will provide an in-depth understanding of how sequence and stereochemistry influence chemical and physical properties. Employing rational design principles, desired functionality could be optimised through the selective modification of polymer structure. These materials should be able to emulate the unique properties and functionality of natural peptides/proteins, making them invaluable for biochemical applications, such as molecular recognition and asymmetric catalysis.Read moreRead less
Naturally derived photoinitiators for biocompatible 3D printing. This project aims to develop an environmentally-friendly approach to naturally derived photoinitiators which are applicable to 3D printing through low-energy, visible light-induced polymerisation, and explore their application in the fabrication of biocompatible polymeric materials. Traditional polymer manufacturing processes such as thermopolymerisation employ hazardous chemicals which present health and environmental risks. This ....Naturally derived photoinitiators for biocompatible 3D printing. This project aims to develop an environmentally-friendly approach to naturally derived photoinitiators which are applicable to 3D printing through low-energy, visible light-induced polymerisation, and explore their application in the fabrication of biocompatible polymeric materials. Traditional polymer manufacturing processes such as thermopolymerisation employ hazardous chemicals which present health and environmental risks. This project expects to expand fundamental scientific knowledge of photochemistry, polymer chemistry and biology through the development of a novel, economical, clean, commercially-relevant platform (3D printing) for the fabrication of polymeric materials.Read moreRead less