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Nanoporous siloxane membranes for ultrasound mediated ophthalmic drug delivery. This project will develop tailored polymers for use in a novel non-invasive ocular drug delivery device which treats vision threatening conditions such as age-related macular degeneration (AMD). The outcomes of this project will enable an entirely new ocular drug delivery technology, thereby delivering significant benefit to ophthalmic healthcare.
High performance inks for solution based organic light emitting diodes manufacturing. This project aims to introduce an advanced solution processing and printing technique for organic light emitting diode (OLED) fabrication based on a set of innovative macromolecular chemistries. These proceed either photochemically or thermally, exploiting precision macromolecular designs of the polymer precursor materials, which contain advanced emitter systems developed by Cynora. Solution fabrication of OLED ....High performance inks for solution based organic light emitting diodes manufacturing. This project aims to introduce an advanced solution processing and printing technique for organic light emitting diode (OLED) fabrication based on a set of innovative macromolecular chemistries. These proceed either photochemically or thermally, exploiting precision macromolecular designs of the polymer precursor materials, which contain advanced emitter systems developed by Cynora. Solution fabrication of OLED is a challenging, yet ultimately powerful, process with key advantages over current vacuum processing systems, especially with regard to production flexibility, cost and OLED size. The project will provide a functioning technology platform for solution OLED fabrication.Read moreRead less
Phosphonium ionic liquids for advanced lithium energy storage systems. This project will develop, along with a leading manufacturer in the world, high performance electrolytes for lithium batteries. The technologies and expertise generated will be of importance to many niche industries in Australia in their shift towards lower carbon operations.
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.
Engineering of composite particles to enhance performance in respiratory drug delivery. Respiratory conditions such as asthma and chronic pulmonary disease affect in excess of 5.8 million Australians and the common method of treatment is via drug inhalation. Although a wide range of drugs are commercially available as dry powder inhalers the efficiency of these systems is poor, with most devices delivering less than 20% to the lung. This project will develop a new method of high-efficiency respi ....Engineering of composite particles to enhance performance in respiratory drug delivery. Respiratory conditions such as asthma and chronic pulmonary disease affect in excess of 5.8 million Australians and the common method of treatment is via drug inhalation. Although a wide range of drugs are commercially available as dry powder inhalers the efficiency of these systems is poor, with most devices delivering less than 20% to the lung. This project will develop a new method of high-efficiency respiratory drug delivery based on composite particles. The technology developed from this project will advance Australia’s Research & Innovation and Pharmaceutical industry sector, and improve healthcare outcomes in the government’s key priority area of Promoting and maintaining good health: ‘A healthy start to life’ and ‘Ageing well’Read moreRead less
Smart affinity membranes for manufacture of high value therapeutic proteins. This project aims to develop next generation separation membranes for production of high-value proteins from serum. Through a combination of innovative chemistries, biotechnology and engineering, the project will enhance production, efficiency and resolution of membranes for separating complex mixtures, thereby contributing to broader understanding in membrane science. By establishing a strong collaborative link between ....Smart affinity membranes for manufacture of high value therapeutic proteins. This project aims to develop next generation separation membranes for production of high-value proteins from serum. Through a combination of innovative chemistries, biotechnology and engineering, the project will enhance production, efficiency and resolution of membranes for separating complex mixtures, thereby contributing to broader understanding in membrane science. By establishing a strong collaborative link between academic and industry researchers, this project has the potential to significantly value-add to existing and exciting Australian technology by enhancing the efficiency of plasma fractionation, improving isolation of large molecules from complex media and by improving the downstream manufacturing and bioprocessing pipeline. Read moreRead less
Next generation hybrid nanomaterials: bispecific antibody-targeted polymers. This project aims to develop and optimise a novel platform technology that will assist in the development of hybrid materials consisting of nanomaterials and biomolecules, which form the basis of many commercial diagnostic devices. A novel antibody, MIL38, will provide the test bed for the technology, which will aim to deliver a platform that is stable under physiological conditions and that enables facile conjugation o ....Next generation hybrid nanomaterials: bispecific antibody-targeted polymers. This project aims to develop and optimise a novel platform technology that will assist in the development of hybrid materials consisting of nanomaterials and biomolecules, which form the basis of many commercial diagnostic devices. A novel antibody, MIL38, will provide the test bed for the technology, which will aim to deliver a platform that is stable under physiological conditions and that enables facile conjugation of nanomaterials with antibodies. This project has the potential to rapidly improve the ligation process between synthetic nanomaterials and biologics, leading to more efficient synthesis of targeted diagnostics. This would provide a significant commercial advantage for any nanomaterials developed for the field, and specifically for this project, expedite translation of MIL38.Read moreRead less
Next-generation solid-state batteries to drive an automotive revolution. This project seeks to design and fabricate new solid-state silicon electrodes for advanced high energy, high stability lithium batteries. It is anticipated that this project will generate new knowledge in the area of battery electrode materials through an innovative combination of a soft plastic crystal electrolyte with a highly conductive glass ceramic electrolyte. Expected outcomes of this project include a greater unders ....Next-generation solid-state batteries to drive an automotive revolution. This project seeks to design and fabricate new solid-state silicon electrodes for advanced high energy, high stability lithium batteries. It is anticipated that this project will generate new knowledge in the area of battery electrode materials through an innovative combination of a soft plastic crystal electrolyte with a highly conductive glass ceramic electrolyte. Expected outcomes of this project include a greater understanding of electrolyte properties and an increase in the electrode cycle stability. This should provide significant benefits, such as the development of a new high capacity battery to promote the uptake of electric vehicles and lower Australia's carbon footprint.Read moreRead less
Solution and surface speciation evolution during chalcopyrite leaching. This project will contribute to the development of a more effective industrial leach process for chalcopyrite, the source of more than 50 per cent of the world's copper, and will lead to substantially reduced processing costs and environmental impact, due to removal of the existing smelting step. In addition, the processing of currently uneconomic low grade ores would become economic.
The development of flexible, graded plasma surface engineered coatings for superior interfacial performance. The next generation of intraocular lenses, medical devices to treat patients with cataracts, will be developed through application of advanced surface engineering technologies. These superior coated lenses will improve biocompatibility and function, leading to additional benefit for the forecasted 2.7 million Australians with cataracts by 2021.