Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237384
Funder
Australian Research Council
Funding Amount
$156,000.00
Summary
Raman Spectroscopy Mapping Facility. This proposal seeks to provide a confocal Raman spectrometer for researchers at the Universities of Wollongong, Western Sydney, Newcastle and University of Technology, Sydney. The Facility will have the exceptional capability of characterising and mapping, at the micron level, the chemical nature of a wide range of advanced materials under development in our laboratories. The information derived will be of critical value for potential applications such as new ....Raman Spectroscopy Mapping Facility. This proposal seeks to provide a confocal Raman spectrometer for researchers at the Universities of Wollongong, Western Sydney, Newcastle and University of Technology, Sydney. The Facility will have the exceptional capability of characterising and mapping, at the micron level, the chemical nature of a wide range of advanced materials under development in our laboratories. The information derived will be of critical value for potential applications such as new corrosion-protection coatings, highly selective chemical and biochemical sensors, and new solar energy materials. The Facility will also be invaluable for the quantitative characterisation of forensic and geological samples that are otherwise difficult to identify due to their heterogeneous nature.Read moreRead less
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
Development of Optimised Processes for Manufacturing Melamine-Urea-Formaldehyde Type Resins, and Improved Resins and Reconstituted Wood Products Derived from Resins. Melamine-urea-formaldehyde resins are used to manufacture water-resistant particleboards, papers and laminates. This project is expected to provide more efficient processes for the industrial preparation of these resins, and improved resins and reconstituted wood products derived from the resins. Methods will be developed to assess ....Development of Optimised Processes for Manufacturing Melamine-Urea-Formaldehyde Type Resins, and Improved Resins and Reconstituted Wood Products Derived from Resins. Melamine-urea-formaldehyde resins are used to manufacture water-resistant particleboards, papers and laminates. This project is expected to provide more efficient processes for the industrial preparation of these resins, and improved resins and reconstituted wood products derived from the resins. Methods will be developed to assess the structure of the resins, in order to relate resin synthesis with structure and function, and therefore optimise performance as well as simplify the manufacturing process. Potential replacements for melamine will be prepared and evaluated. It is anticipated that these will confer particular properties on the resins and the wood products, such as strength and durability.Read moreRead less
Nanogels: Next Generation Polymeric Particles. The existing knowledge in the formation of polymeric networks limits the technological development of polymer materials. This project will introduce new polymeric particles, called nanogels to open a new area in new polymeric architecture research. A number of new structures based on the nanogels will be developed. These new macromolecules will not only bring the polymer science into a new field, it will provide a great opportunity to discover the ....Nanogels: Next Generation Polymeric Particles. The existing knowledge in the formation of polymeric networks limits the technological development of polymer materials. This project will introduce new polymeric particles, called nanogels to open a new area in new polymeric architecture research. A number of new structures based on the nanogels will be developed. These new macromolecules will not only bring the polymer science into a new field, it will provide a great opportunity to discover the next generation of the polymeric products, particularly for application in automotive paint, drug delivery and bio-molecular separations.Read moreRead less
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
Novel Hydrogels for Bioseparations in Clinical Applications. The project aims to design and synthesise new highly swollen hydrophilic membranes for use in biological separation processes and purifications such as the removal of viruses from blood. Typical membrane problems like membrane fouling or low flux should be minimized by a narrow pore size distribution. The regular nano-patterning should be obtained by molecular impriniting technique. Novel thermoresponsive polymers, which will be polyme ....Novel Hydrogels for Bioseparations in Clinical Applications. The project aims to design and synthesise new highly swollen hydrophilic membranes for use in biological separation processes and purifications such as the removal of viruses from blood. Typical membrane problems like membrane fouling or low flux should be minimized by a narrow pore size distribution. The regular nano-patterning should be obtained by molecular impriniting technique. Novel thermoresponsive polymers, which will be polymerized via controlled free radical polymerization techniques, will be used as biocompatible membrane material.Read moreRead less