Developing novel chemistries for removing environmental surface biofilms to reduce hospital acquired infections. This project will develop new detergents that more efficiently clean hospitals. This will increase hospital safety by decreasing infections, thus saving lives and healthcare costs.
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
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