Janus particles and nanorattles: new materials for paint technology. This project will pave the way for self cleaning paints that achieve opacity with greatly reduced titanium dioxide levels. Painted surfaces will maintain their clean and new look for longer and a clean town look will be much more readily maintained. More efficient use of titanium dioxide will reduce the need for sand mining and reduce the cost of quality paint.
Polymer micro-capsules for stain-resistant paint. This project aims to create an advanced micro-capsule system to be used in the manufacturing of high-performance waterborne paints on a large scale. Surface coatings seal, strengthen, and decorate the majority of surfaces in the building industry. Despite their importance, advances in paint science have only been incremental and a truly stain-resistant, robust and environmentally friendly coating has yet to be developed. This project will use pol ....Polymer micro-capsules for stain-resistant paint. This project aims to create an advanced micro-capsule system to be used in the manufacturing of high-performance waterborne paints on a large scale. Surface coatings seal, strengthen, and decorate the majority of surfaces in the building industry. Despite their importance, advances in paint science have only been incremental and a truly stain-resistant, robust and environmentally friendly coating has yet to be developed. This project will use polymer Janus nanoparticles to radically redesign architectural coatings, with the goal to reduce the use of non-renewable components, and increase stain-resistance and durability. This new technology will lead to less disruption for the environment, and important economic and technological benefits for Australia.Read moreRead less
Key Functional Additives in Paint Technology. The goal of this project is to create two novel advanced particle systems with complex architecture that can be manufactured on a large scale, which aim to lead to high-performance waterborne paints. It is intended that these paints will have three functional characteristics: provide more efficient use of titanium dioxide; display pronounced water-resistance; and contribute to removing the need for organic solvents from the gloss paint sector. This r ....Key Functional Additives in Paint Technology. The goal of this project is to create two novel advanced particle systems with complex architecture that can be manufactured on a large scale, which aim to lead to high-performance waterborne paints. It is intended that these paints will have three functional characteristics: provide more efficient use of titanium dioxide; display pronounced water-resistance; and contribute to removing the need for organic solvents from the gloss paint sector. This research aims to provide the means to create paint films with greatly improved properties at reduced cost, with reduced requirement for non-renewable resources and reduced environmental footprint.Read moreRead less
Polymer nanoparticles with gradient morphology for environmentally friendly aqueous coatings applications. The commercial and practical importance of coatings (paints) in today’s society can hardly be overstated. With the ongoing drive towards more environmentally friendly coating systems, there is a strong desire to replace traditionally employed solvent-based coatings with entirely waterborne systems. Waterborne coatings are a key measure by which the coating industry can meet requirements to ....Polymer nanoparticles with gradient morphology for environmentally friendly aqueous coatings applications. The commercial and practical importance of coatings (paints) in today’s society can hardly be overstated. With the ongoing drive towards more environmentally friendly coating systems, there is a strong desire to replace traditionally employed solvent-based coatings with entirely waterborne systems. Waterborne coatings are a key measure by which the coating industry can meet requirements to reduce emission of volatile organic compounds. However, maximum performance cannot be achieved currently using waterborne coatings, which in turn limits applications. The overall aim of this project is to develop environmentally friendly high-performance waterborne coatings that will enable replacement of currently employed solvent-based systems.Read moreRead less
Polymer nanofibres for advanced paint formulations. Surface coatings seal, strengthen, and decorate the majority of surfaces in the building industry—a $72 billion market. Despite their importance, advances in paint science have only been incremental and a truly robust and water resistant paint coating has yet to be developed. Dulux Group Australia and the University of Sydney will use polymer nanofibres as additives to radically redesign architectural coatings, with the goal to drastically incr ....Polymer nanofibres for advanced paint formulations. Surface coatings seal, strengthen, and decorate the majority of surfaces in the building industry—a $72 billion market. Despite their importance, advances in paint science have only been incremental and a truly robust and water resistant paint coating has yet to be developed. Dulux Group Australia and the University of Sydney will use polymer nanofibres as additives to radically redesign architectural coatings, with the goal to drastically increase their durability. The partnership will bring a technological breakthrough that will lead to less disruption for the environment, and important economic and technological benefits for Australia.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
Vesicles stabilised by compressed carbon dioxide as nanoreactors and templates for radical polymerisation. A new environmentally friendly method for synthesis of surfactant vesicles involving stabilisation using low pressure carbon dioxide will be applied to the synthesis of hollow polymeric nanoparticles and polymer of well-defined structure. The resulting polymeric structures will have applications in drug delivery and nano-engineered materials.
Controlled/living radical polymerization in environmentally friendly miniemulsions induced by compressed carbon dioxide for synthesis of nanoparticles and well-defined polymer. Controlled/living radical polymerization is a technique for precise synthesis of polymer by radical polymerization, which has revolutionized polymer synthesis in terms of accessible polymer structures. However, controlled/living radical polymerization has yet to gain a strong foothold in industry mainly due to problems as ....Controlled/living radical polymerization in environmentally friendly miniemulsions induced by compressed carbon dioxide for synthesis of nanoparticles and well-defined polymer. Controlled/living radical polymerization is a technique for precise synthesis of polymer by radical polymerization, which has revolutionized polymer synthesis in terms of accessible polymer structures. However, controlled/living radical polymerization has yet to gain a strong foothold in industry mainly due to problems associated with its implementation in (aqueous) dispersed systems. The present Proposal addresses this key challenge by a novel environmentally friendly and versatile method for aqueous miniemulsion preparation by use of compressed carbon dioxide. Controlled/living radical polymerization in dispersed systems generates polymeric nanoparticles, which are of importance in many advanced and emerging technologies.Read moreRead less
Formation and stability of polymerically stabilized colloids. This project will bring economic, medical and environmental benefits, with improved product performance and manufacturing processes for everyday industrial items relevant to a large industrial sector with significant employment in Australia: inks and paints (for example, surface coatings that can be applied more rapidly without clogging the jets); better means of preventing the fouling of industrial membranes; and improved materials f ....Formation and stability of polymerically stabilized colloids. This project will bring economic, medical and environmental benefits, with improved product performance and manufacturing processes for everyday industrial items relevant to a large industrial sector with significant employment in Australia: inks and paints (for example, surface coatings that can be applied more rapidly without clogging the jets); better means of preventing the fouling of industrial membranes; and improved materials for biomedical applications, with more desirable interactions between living cells and body fluids. These advances will also speed the replacement of solvent-based lacquer paints - detrimental to both environment and user - with water-based products of high quality.Read moreRead less