Nanoporous Epoxy Thermosets via Microphase Separation of Block Copolymers. This project has many expected outcomes and benefits to Australia: (1) Development of the first technology to produce nanoporous epoxy thermosets (i.e. epoxy nanofoams) that may have many applications in microelectronics, optical waveguides and biological separations; (2) Providing impetus for an advanced materials synthesis and manufacturing industry for Australia and contributing to the Frontier Technologies National Re ....Nanoporous Epoxy Thermosets via Microphase Separation of Block Copolymers. This project has many expected outcomes and benefits to Australia: (1) Development of the first technology to produce nanoporous epoxy thermosets (i.e. epoxy nanofoams) that may have many applications in microelectronics, optical waveguides and biological separations; (2) Providing impetus for an advanced materials synthesis and manufacturing industry for Australia and contributing to the Frontier Technologies National Research Priority-Advanced Materials Priority Goals; (3) The development of new niche markets with these new materials and the new technologies, which is an excellent vehicle for Australia to move to a high-value added industrial portfolio that maximises return and promotes job growth.Read moreRead less
Computer-Aided Design of Agents for Controlling Free-Radical Polymerisation. This project will provide cutting-edge fundamental research of importance to free-radical polymerisation. This process is the basis of a multi-billion dollar industry worldwide, and is very important to the Australian economy. The project will help to expand the applicability of the reversible addition fragmentation chain transfer (RAFT) polymerisation process, which is a significant new CSIRO-invented method for contro ....Computer-Aided Design of Agents for Controlling Free-Radical Polymerisation. This project will provide cutting-edge fundamental research of importance to free-radical polymerisation. This process is the basis of a multi-billion dollar industry worldwide, and is very important to the Australian economy. The project will help to expand the applicability of the reversible addition fragmentation chain transfer (RAFT) polymerisation process, which is a significant new CSIRO-invented method for controlling free-radical polymerisation. In doing this, the project will facilitate the design and development of a range of new polymer products, with applications in biotechnology and nanotechnology. This research will help to keep Australia at the forefront of this important field.Read moreRead less
Simulation studies of stick and slip at the solid-liquid boundary. Successful practical application of computational rheology to polymer processing, to adhesion and to the understanding of lubrication at very high shear rates, among other problems, needs both an adequate description of the fluid - a constitutive equation - and the prescription of proper boundary conditions.The constitutive model problem has been extensively studied, and this proposal seeks to address the question of proper bound ....Simulation studies of stick and slip at the solid-liquid boundary. Successful practical application of computational rheology to polymer processing, to adhesion and to the understanding of lubrication at very high shear rates, among other problems, needs both an adequate description of the fluid - a constitutive equation - and the prescription of proper boundary conditions.The constitutive model problem has been extensively studied, and this proposal seeks to address the question of proper boundary conditions for viscoelastic flow at interfaces between a flowing fluid and a solid surface. This vital area has not been thoroughly studied theoretically and computationally, and we seek to clarify the mechanisms by using molecular dynamics.Read moreRead less
Hydrogen Abstraction in Chemical, Biochemical and Polymerization Processes. Hydrogen-abstraction reactions are of vital importance in the chemical, biochemical and polymerization processes that occur in everyday life. The objective of the proposed research is to improve our understanding of such reactions. State-of-the-art quantum chemistry calculations will be used to examine a broad range of hydrogen-abstraction reactions, and to obtain accurate information about the factors that influence suc ....Hydrogen Abstraction in Chemical, Biochemical and Polymerization Processes. Hydrogen-abstraction reactions are of vital importance in the chemical, biochemical and polymerization processes that occur in everyday life. The objective of the proposed research is to improve our understanding of such reactions. State-of-the-art quantum chemistry calculations will be used to examine a broad range of hydrogen-abstraction reactions, and to obtain accurate information about the factors that influence such reactions. Building on this work, more detailed case studies will be performed in two important areas: the hydrogen-abstraction steps in biochemical reactions mediated by coenzyme B12, and chain-transfer processes in conventional and controlled free-radical polymerization.Read moreRead less
Building advanced polymeric nanotubes for targeted drug delivery. Advanced drug delivery devices have major commercial applications in fighting diseases like cancer and infectious viruses. The success of this project will provide fundamental knowledge for the design of new drug delivery devices based on polymeric nanotubes. The project will also further advance Australia's nano- and bio-technological research and industries. This project will also provide additional benefit for developing contro ....Building advanced polymeric nanotubes for targeted drug delivery. Advanced drug delivery devices have major commercial applications in fighting diseases like cancer and infectious viruses. The success of this project will provide fundamental knowledge for the design of new drug delivery devices based on polymeric nanotubes. The project will also further advance Australia's nano- and bio-technological research and industries. This project will also provide additional benefit for developing controlled release systems in drug delivery and artificial vessels, and improve sensitivity in molecular sensors. The pioneering work proposed will ensure that Australia remains at the forefront of innovative scientific research within the rapidly advancing disciplines of nanotechnology and novel macromolecular design.Read moreRead less