Novel Nano Particles for Advanced Automotive and Industrial Coatings. In conjunction with our industrial partner (DuPont Australia), this project will develop a new generation of automotive and industrial coatings. The technology developed from this project can integrate into the existing system. The new coatings will be environmentally friendly and will make a significant contribution to solve the emission issue of volatile organic compound (VOC) faced by the industry. The novel nano particles ....Novel Nano Particles for Advanced Automotive and Industrial Coatings. In conjunction with our industrial partner (DuPont Australia), this project will develop a new generation of automotive and industrial coatings. The technology developed from this project can integrate into the existing system. The new coatings will be environmentally friendly and will make a significant contribution to solve the emission issue of volatile organic compound (VOC) faced by the industry. The novel nano particles developed from this project will provide unique properties for automotive paint and can be commercialized at an acceptable price. The science involved in this project represents the cutting edge of world leading technology and will bring polymer science into a new field.Read moreRead less
Novel Coatings For Steel. The aim of this project is to design coatings for steel that have high flexibility and high resistance to scatching and hardness. This will be achieved by the introduction of liquid crystalline phases in the coatings. The outcome will be a new generation of steel coatings with novel properties
New Surface Coatings Derived from Renewable Resources. In this project we will develop a novel, efficient cross-linking methodology to generate surface coating and adhesive products from inexpensive, renewable, local, natural feedstocks. Potential economic benefits to Australia include the replacement of imported petrochemical feedstocks with Australian agricultural products, the development of high performance products with the potential for export, and the establishment of an intellectual prop ....New Surface Coatings Derived from Renewable Resources. In this project we will develop a novel, efficient cross-linking methodology to generate surface coating and adhesive products from inexpensive, renewable, local, natural feedstocks. Potential economic benefits to Australia include the replacement of imported petrochemical feedstocks with Australian agricultural products, the development of high performance products with the potential for export, and the establishment of an intellectual property portfolio that will lead to opportunities for licensing internationally.Read moreRead less
Nanostructured anticorrosive coating for wave energy conversion module. The project will develop new high performance anticorrosion coatings for metal structures, such as a Waverider- a patented wave energy conversion module. It will deliver a strong intellectual property position in the frontier anti-corrosion technology to Australian Industry and train young scientists in the emerging and multidisciplinary field of research.