Novel Complex Architecture Polymers via a Combination of RAFT Chemistry and Pericyclic Reactions: Synthesis and Characterization. The project aims at advancing the synthetic limits and broadening the synthetic scope of living free radical polymerization and thus enhancing the library of polymer structures available for applications ranging from drug delivery to opto-electronics. Current material design for these applications is yet to reach its full potential through innovative synthetic approac ....Novel Complex Architecture Polymers via a Combination of RAFT Chemistry and Pericyclic Reactions: Synthesis and Characterization. The project aims at advancing the synthetic limits and broadening the synthetic scope of living free radical polymerization and thus enhancing the library of polymer structures available for applications ranging from drug delivery to opto-electronics. Current material design for these applications is yet to reach its full potential through innovative synthetic approaches. The proposal critically underpins and further advances Australia's leading position in both breakthrough science as well as advanced materials. Due to its significant scientific breadth and large coverage of both synthetic and physical aspects of polymer science, the project also provides a significant platform for research training at both honours and PhD level.Read moreRead less
Defining Polymer Structures in Radical Polymerization Systems: Chain Birth, Chain Growth and Complex Macromolecular Architectures. The project underpins and extends Australia's leading position in the development and application of novel methods to generate advanced polymeric materials. By carefully studying the reaction pathways underpinning the polymerization processes, an in-depth picture of the polymerization is obtained. The research outcomes will strongly benefit the preparation of the com ....Defining Polymer Structures in Radical Polymerization Systems: Chain Birth, Chain Growth and Complex Macromolecular Architectures. The project underpins and extends Australia's leading position in the development and application of novel methods to generate advanced polymeric materials. By carefully studying the reaction pathways underpinning the polymerization processes, an in-depth picture of the polymerization is obtained. The research outcomes will strongly benefit the preparation of the coming generations of intelligent polymer materials of a highly controlled structure, responsive to their environment, with an even broader range of applications than existing polymers. In addition, the project has a substantial educational component providing training embedded in cutting polymer science for several honours and 1 PhD student.Read moreRead less