Flow process and visible-light driven reactions for polymer manufacturing. This project aims to develop rapid, scalable light-driven continuous flow processing techniques that allow the production of value-added synthetic polymers that cannot be achieved by existing technologies. The project will take advantage of the spatio-temporal control of the light mediated polymerisation with flow process to achieve control over the primary structure, the sequential arrangement of monomer units in a polym ....Flow process and visible-light driven reactions for polymer manufacturing. This project aims to develop rapid, scalable light-driven continuous flow processing techniques that allow the production of value-added synthetic polymers that cannot be achieved by existing technologies. The project will take advantage of the spatio-temporal control of the light mediated polymerisation with flow process to achieve control over the primary structure, the sequential arrangement of monomer units in a polymer chain and the molecular weight distribution. The project will result in the preparation of functional polymers containing a specific arrangement of monomers in the polymer chain and a precise distribution of polymer chains. The development of such process will result in the development of advanced materials.Read moreRead less
Next generation core-shell materials based on biomolecular dual-templating. This project aims to discover and develop new methods and knowledge for the precision engineering of next-generation core-shell materials using sustainable biomolecular dual-templating processes. This research builds on a recent breakthrough - emulsion and biomimetic dual-templating technology for facile preparation of silica capsules, and is expected to revolutionise current approaches for making core-shell materials. S ....Next generation core-shell materials based on biomolecular dual-templating. This project aims to discover and develop new methods and knowledge for the precision engineering of next-generation core-shell materials using sustainable biomolecular dual-templating processes. This research builds on a recent breakthrough - emulsion and biomimetic dual-templating technology for facile preparation of silica capsules, and is expected to revolutionise current approaches for making core-shell materials. Significant outcomes are expected to be achieved through building fundamental understanding around this breakthrough, including new concepts for hierarchical nanomaterials based on biomolecular design, new molecular and engineering design rules for core-shell materials, and novel materials for applications in sustained release and delivery systems.Read moreRead less
On-demand 3D polymer scaffolds for directed stem cell differentiation. The project will develop new polymer gels that can be sculpted into shapes, representing tissues and organs. This 3D scaffold will provide a surface with biological signals to create functional tissues from stem cells. The approach will create engineered intestinal tissue with great promise to increase the survival rates of colon cancer patients.
Fundamental studies in extensional rheology of polymers and biomacromolecules. Long molecules such as polymers, DNA and other biopolymers are of significant practical and fundamental interest. The behaviour of such polymers in extensional or stretching flows and the consequent stresses generated can be measured as a result of advances in instrumentation pioneered at Monash University. This research program builds on this foundation to understand the effects of molecular architecture on the prope ....Fundamental studies in extensional rheology of polymers and biomacromolecules. Long molecules such as polymers, DNA and other biopolymers are of significant practical and fundamental interest. The behaviour of such polymers in extensional or stretching flows and the consequent stresses generated can be measured as a result of advances in instrumentation pioneered at Monash University. This research program builds on this foundation to understand the effects of molecular architecture on the properties of macromolecules and to rigorously test several innovative theoretical concepts that have been advanced over the last 20 years. Such knowledge allows the tailoring of polymer shape to their end use and permits the design of novel polymers.Read moreRead less
Very thin, highly oriented and featured diamond films. The technology for making very thin diamond films, having sculpted surface features and fabricated from tiny and highly oriented individual diamond crystallites, would enable widespread potential applications, including eg surface acoustic wave devices, optical biosensors for ?lab-on-a-chip?, and field emitter arrays for paper thin, bright and wide angle flat panel displays, amongst others. Diamond is uniquely suited to these applications, ....Very thin, highly oriented and featured diamond films. The technology for making very thin diamond films, having sculpted surface features and fabricated from tiny and highly oriented individual diamond crystallites, would enable widespread potential applications, including eg surface acoustic wave devices, optical biosensors for ?lab-on-a-chip?, and field emitter arrays for paper thin, bright and wide angle flat panel displays, amongst others. Diamond is uniquely suited to these applications, and the capability to manipulate film properties and features which is the key requirement, is within grasp.Read moreRead less
Development of novel methods for the preparation of composite coatings containing liquid microcapsules. Corrosion and material wear cause significant losses. Statistics shows that over $2 billion is lost annually to material wear and corrosion in Australia alone. Composite coatings from electrolytic co-deposition of solid particles with metals have better wear, friction and corrosion properties than their base materials and find application in space and automobile industries. This proposal aims ....Development of novel methods for the preparation of composite coatings containing liquid microcapsules. Corrosion and material wear cause significant losses. Statistics shows that over $2 billion is lost annually to material wear and corrosion in Australia alone. Composite coatings from electrolytic co-deposition of solid particles with metals have better wear, friction and corrosion properties than their base materials and find application in space and automobile industries. This proposal aims to develop novel methods for the fabrication of composite coatings containing liquid microcapsules, which will further improve the corrosion and friction properties of the coatings over those containing solid particles.Read moreRead less
All-solid-state Z-scheme photocatalysts for water treatment. The project aims to develop high-performance Z-scheme photocatalysts by using two-dimensional (2D) semiconductors as building blocks for low-cost, highly-efficient pathogen inactivation and emerging pollutant degradation in stormwater treatment. The project expects to generate new fundamental knowledge in the area of photocatalyst design and Z-scheme photocatalytic system, and advance the application of photocatalytic oxidation in wate ....All-solid-state Z-scheme photocatalysts for water treatment. The project aims to develop high-performance Z-scheme photocatalysts by using two-dimensional (2D) semiconductors as building blocks for low-cost, highly-efficient pathogen inactivation and emerging pollutant degradation in stormwater treatment. The project expects to generate new fundamental knowledge in the area of photocatalyst design and Z-scheme photocatalytic system, and advance the application of photocatalytic oxidation in water treatment. The expected outcomes of the project include novel 2D Z-scheme photocatalysts and enhanced capacity in stormwater management.Read moreRead less
Carbonate binding: an ecologically sustainable alternative to cement. Carbonate binding is a frontier technology that promises a new generation of advanced materials for applications in construction. Precast concrete accounts for a large and increasing portion of total concrete usage. Precast materials made by carbonate binding would offer several advantages over conventional precast concrete. The energy savings of a low temperature process with negligible greenhouse gas emissions would contr ....Carbonate binding: an ecologically sustainable alternative to cement. Carbonate binding is a frontier technology that promises a new generation of advanced materials for applications in construction. Precast concrete accounts for a large and increasing portion of total concrete usage. Precast materials made by carbonate binding would offer several advantages over conventional precast concrete. The energy savings of a low temperature process with negligible greenhouse gas emissions would contribute immensely to the goal of an environmentally sustainable Australia. The reduced hardening period would offer substantial increases in productivity to manufacturers.Read moreRead less
A defect mechanism for oxygen reduction reaction. This project aims to use defective carbon to replace expensive platinum as a catalyst for oxygen reduction reaction (ORR) in fuel cells. Defective carbons incorporating non-precious metals are better than platinum in terms of over-potential, current density and number of electron transfer. They reduce the overall fuel cell cost but their better stability and higher open voltage and power density promise huge commercial benefit. This project is ex ....A defect mechanism for oxygen reduction reaction. This project aims to use defective carbon to replace expensive platinum as a catalyst for oxygen reduction reaction (ORR) in fuel cells. Defective carbons incorporating non-precious metals are better than platinum in terms of over-potential, current density and number of electron transfer. They reduce the overall fuel cell cost but their better stability and higher open voltage and power density promise huge commercial benefit. This project is expected to be important for large-scale implementation of fuel cells.Read moreRead less
Development of a Novel One Step Process for Gas Conversion to Liquid. Australia has a rich natural gas reserve, most of which is in remote locations. This project will lead to a new technology to use the remote gas that would be flared into the atmosphere, thus benefiting both Australian economy and green house gas reduction. It will also reduce the risk of relying on importing oil from Overseas thus contributing to Australia's energy security. In addition, while crude-based oil emits SOx, NOx a ....Development of a Novel One Step Process for Gas Conversion to Liquid. Australia has a rich natural gas reserve, most of which is in remote locations. This project will lead to a new technology to use the remote gas that would be flared into the atmosphere, thus benefiting both Australian economy and green house gas reduction. It will also reduce the risk of relying on importing oil from Overseas thus contributing to Australia's energy security. In addition, while crude-based oil emits SOx, NOx and particulates etc into air, the liquid fuels from gas are pure and burns cleanly thus also contributing to air pollution control. Read moreRead less