Mechanisms and modelling of gels for protein separation. Gradipore approached Sydney University to collaborate on fundamental science needed to improve polymer gels for separation and characterization of proteins. These gels have many applications: e.g. proteomics and diagnostics. Presently, control of polymer microstructure in the synthesis of these gels is by trial and error. This project will create an accurate model of the process so pore size can be predicted. This involves novel work in ex ....Mechanisms and modelling of gels for protein separation. Gradipore approached Sydney University to collaborate on fundamental science needed to improve polymer gels for separation and characterization of proteins. These gels have many applications: e.g. proteomics and diagnostics. Presently, control of polymer microstructure in the synthesis of these gels is by trial and error. This project will create an accurate model of the process so pore size can be predicted. This involves novel work in experimental and theoretical methods developed by the Sydney University group. The result will be qualitative and quantitative understanding which can be subsequently used to tailor-make gels for new applications.Read moreRead less
Development of High Performance Nanocomposite Filtration Membranes: Fabrication and Fouling Mechanisms. This project will develop high performance membranes for the filtration of water and wastewater using novel nanotechnology processes. This will reduce the costs and environmental impact of water treatment and risk from low-level chemical contaminants such as micropollutants. The project will also provide an enhanced technology base for producing low cost, hybrid inorganic-organic materials fo ....Development of High Performance Nanocomposite Filtration Membranes: Fabrication and Fouling Mechanisms. This project will develop high performance membranes for the filtration of water and wastewater using novel nanotechnology processes. This will reduce the costs and environmental impact of water treatment and risk from low-level chemical contaminants such as micropollutants. The project will also provide an enhanced technology base for producing low cost, hybrid inorganic-organic materials for widespread environmental, agricultural and food applications.Read moreRead less
An innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites. By fully taking advantage of excellent affinity of water with polar layered silicate and polar polymer, an innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites via melt extrusion with the aid of water/water vapour will be developed. In this process, the pristine layered silicate will be directly exfoliated into individual layers with nanometer thickness and high aspe ....An innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites. By fully taking advantage of excellent affinity of water with polar layered silicate and polar polymer, an innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites via melt extrusion with the aid of water/water vapour will be developed. In this process, the pristine layered silicate will be directly exfoliated into individual layers with nanometer thickness and high aspect ratio, and uniformly dispersed in a polymer matrix. This novel approach is environmentally benign and cost-effective since no alkyl ammonium surfactants are required. The resultant nanocomposites will exhibit excellent barrier properties, high thermal stability, environmental durability and superior mechanical properties. These qualities make them very attractive for many applications in the automotive and packaging industries.Read moreRead less
Nanoparticles with designed morphology for surface-coating applications. Significantly improved water-based paints, with zero volatile organic content and organic opacifiers, are highly desirable for environmental and health reasons. The science needed to produce such paints has been persistently elusive. USyd and Dulux will collaborate to achieve these paints by using Australian-developed platform technologies that allow polymer architecture to be controlled at molecular and nanoscale levels. T ....Nanoparticles with designed morphology for surface-coating applications. Significantly improved water-based paints, with zero volatile organic content and organic opacifiers, are highly desirable for environmental and health reasons. The science needed to produce such paints has been persistently elusive. USyd and Dulux will collaborate to achieve these paints by using Australian-developed platform technologies that allow polymer architecture to be controlled at molecular and nanoscale levels. This will give us the means to make structured nanoparticles with morphologies that had been regarded as unachievable, and that are the key to dispensing with harmful ingredients in paints.Read moreRead less
Rubbery nanoparticles for improved plastics, additives and adhesives through novel low-temperature polymerization. This project will create the enabling science for producing better pressure-sensitive adhesives, leather treatment, bitumen additives and engineering plastics, by the first-ever synthesis of acrylic latex at low temperatures. This will allow certain reaction processes to predominate that will result in molecular architectures that are very different from those currently made. The re ....Rubbery nanoparticles for improved plastics, additives and adhesives through novel low-temperature polymerization. This project will create the enabling science for producing better pressure-sensitive adhesives, leather treatment, bitumen additives and engineering plastics, by the first-ever synthesis of acrylic latex at low temperatures. This will allow certain reaction processes to predominate that will result in molecular architectures that are very different from those currently made. The result will be enhanced material properties, such as better-wearing leather coatings, greater scratch and shock resistance in vehicle and domestic plastics (with reduced environmental insult in manufacture and usage), improved endurance for bitumen road surfaces, and layered packaging that needs less adhesive per unit of strength.Read moreRead less