Fundamentals and applications of dynamic interfacial forces in soft matter. The proposed program will make an internationally significant contribution to the fundamental understanding of soft matter on the nanoscale. This has a direct impact upon processes that are key to a wide range of Australian industries ranging from the manufacture of functional foods to minerals recovery to pharmaceutical formulation, where innovative solutions can substantially improve productivity, increase export pote ....Fundamentals and applications of dynamic interfacial forces in soft matter. The proposed program will make an internationally significant contribution to the fundamental understanding of soft matter on the nanoscale. This has a direct impact upon processes that are key to a wide range of Australian industries ranging from the manufacture of functional foods to minerals recovery to pharmaceutical formulation, where innovative solutions can substantially improve productivity, increase export potential and reduce environmental impact. The outcomes of this work, in the form of high impact papers and conference presentations, will build and enhance Australia's reputation as a world leader in nanotechnology and colloid science. Read moreRead less
Sustainable surfactants from Australian oilseeds. This project aims to develop a new generation of sustainable surfactants utilising Australian-grown oilseed feedstocks. These molecules are designed to replace current materials made from petroleum and palm oil, to fulfil a key role as the next generation of bio-resourced detergents and emulsifiers. The work seek to develop a library of new molecules to better understand the relationship between molecular structure and performance, through cuttin ....Sustainable surfactants from Australian oilseeds. This project aims to develop a new generation of sustainable surfactants utilising Australian-grown oilseed feedstocks. These molecules are designed to replace current materials made from petroleum and palm oil, to fulfil a key role as the next generation of bio-resourced detergents and emulsifiers. The work seek to develop a library of new molecules to better understand the relationship between molecular structure and performance, through cutting edge lab testing and utilising national infrastructure, guiding the use of new components in formulating new products. It is anticipated that the surfactants generated will find uses in household cleaning and personal care products, providing high value chemicals from key Australian crops.Read moreRead less
Designer Surfactants for Creation of Emulsion Properties. We propose new approaches to the design of surfactants for stabilising water in oil emulsions. New block copolymer surfactants may be "tailored" for head group structure and a pre-chosen hydrophilic/lipophilic balance at the oil-water interface using the Australian developed RAFT polymer synthesis method and polymeric inorganic species. The proposers have an extensive background in these areas.
X-ray and neutron scattering techniques, de ....Designer Surfactants for Creation of Emulsion Properties. We propose new approaches to the design of surfactants for stabilising water in oil emulsions. New block copolymer surfactants may be "tailored" for head group structure and a pre-chosen hydrophilic/lipophilic balance at the oil-water interface using the Australian developed RAFT polymer synthesis method and polymeric inorganic species. The proposers have an extensive background in these areas.
X-ray and neutron scattering techniques, developed by us, allow the interfacial structure of the surfactant to be found and the intellectual "loop" closed in the design process. Preliminary screening will be done using the surface balance and bulk emulsion synthesis.Read moreRead less
High Internal Phase Emulsions - Structure and Rheology Control. Our first SPIRT Grant with ORICA Australia Ltd has successfully identified nanostructures in high internal phase emulsions which confer useful stability and robustness on these industrially important systems. The aim now is to ramify those discoveries both scientifically and technologically in the design of emulsion structure using our, now established, techniques. In particular, the objective is to control both nanoscale and mes ....High Internal Phase Emulsions - Structure and Rheology Control. Our first SPIRT Grant with ORICA Australia Ltd has successfully identified nanostructures in high internal phase emulsions which confer useful stability and robustness on these industrially important systems. The aim now is to ramify those discoveries both scientifically and technologically in the design of emulsion structure using our, now established, techniques. In particular, the objective is to control both nanoscale and mesoscale structure in emulsion formulation, as well as the rheology and stability of emulsion preparations. To do this we plan to use mixed surfactant systems and to study intersurfactant synergic effects on the structure and fluidity of the interfacial material. We believe that the proposed work is unique and that the outcomes will be scientifically novel and also valuable for Australian industry.Read moreRead less
An integrated study of dynamic interactions in soft matter systems. Established Australian pharmaceutical, dairy and food processing industries and growing high-value biotechnology and nanotechnology rely on the processing and control of a generic class of materials called Soft Matter. Cost driven demands for high throughput and increasing water and energy conservation requirements will be met by advances in the underpinning engineering science pursued in this project. In addition to increasing ....An integrated study of dynamic interactions in soft matter systems. Established Australian pharmaceutical, dairy and food processing industries and growing high-value biotechnology and nanotechnology rely on the processing and control of a generic class of materials called Soft Matter. Cost driven demands for high throughput and increasing water and energy conservation requirements will be met by advances in the underpinning engineering science pursued in this project. In addition to increasing the international competitiveness of Australian industries in high value products, the research outcomes also add to the knowledge capacity of the nation for future technological developments.Read moreRead less
De-risking new surfactant and polymer classes in personal care formulations. Personal care products are almost completely reliant on palm oil feedstocks for the surfactants or soaps that provide cleansing and conditioning. Yet, there is considerable risk in moving to alternative feedstocks for new surfactant formulations, where the design rules based in fundamental colloid science do not yet exist. In collaboration with world leading formulation expertise, this project aims to use a combination ....De-risking new surfactant and polymer classes in personal care formulations. Personal care products are almost completely reliant on palm oil feedstocks for the surfactants or soaps that provide cleansing and conditioning. Yet, there is considerable risk in moving to alternative feedstocks for new surfactant formulations, where the design rules based in fundamental colloid science do not yet exist. In collaboration with world leading formulation expertise, this project aims to use a combination of high-throughput microfluidic platforms to direct more detailed colloidal, surface and scattering techniques to drive mechanistic studies to link microstructure to formulation properties. This will lead to the design rules needed to control the synergistic interactions between surfactants and polymers in these formulations.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100085
Funder
Australian Research Council
Funding Amount
$340,000.00
Summary
Soft matter and responsive materials characterisation facility. The processing of minerals, foods and pharmaceutical materials underpins the delivery of these materials to the community. The industries associated with the named areas have cost-driven demands for higher throughput and constraints imposed by water and energy conservation requirements. Technological advances in the processing of soft matter and responsive materials therefore offer a gateway to revolutionary changes in many aspects ....Soft matter and responsive materials characterisation facility. The processing of minerals, foods and pharmaceutical materials underpins the delivery of these materials to the community. The industries associated with the named areas have cost-driven demands for higher throughput and constraints imposed by water and energy conservation requirements. Technological advances in the processing of soft matter and responsive materials therefore offer a gateway to revolutionary changes in many aspects of our everyday lives. The outcomes from research addressing these classes of advanced materials will translate into improvements in Australian industries and in training the next generation of world leading Australian scientists and engineers using state-of-the-art technology.Read moreRead less