Oxide Bioceramics for Drug Delivery. Australia has the highest rate of skin cancer in the world. One out of every two Australians will develop skin cancer at some stage during their lives. On average, 740,000 new cases of skin cancer are diagnosed in Australia every year (1 million in the USA). The cost to Australia is over $200 million/year. While today more people are aware of the dangers of UV, the desire to be fashionable outweighs their health concerns. Melanotan is a novel sunscreen soluti ....Oxide Bioceramics for Drug Delivery. Australia has the highest rate of skin cancer in the world. One out of every two Australians will develop skin cancer at some stage during their lives. On average, 740,000 new cases of skin cancer are diagnosed in Australia every year (1 million in the USA). The cost to Australia is over $200 million/year. While today more people are aware of the dangers of UV, the desire to be fashionable outweighs their health concerns. Melanotan is a novel sunscreen solution: a drug that stimulates the body's natural defence mechanism against UV light. Alumina and zirconia bioceramics are ideal implantable drug delivery vehicles because of the long leaching periods possible.Read moreRead less
Miniature lithium ion battery for implantable medical device applications. This project addresses National Research Priorities in the areas of breakthrough science, frontier technologies and promoting and maintaining good health. Substantial national benefit could be derived from this project: (i) Australia will innovate in an important and intensely active area in which the results will have long-lasting significance in implantable rechargeable battery development; (ii)The development of new sc ....Miniature lithium ion battery for implantable medical device applications. This project addresses National Research Priorities in the areas of breakthrough science, frontier technologies and promoting and maintaining good health. Substantial national benefit could be derived from this project: (i) Australia will innovate in an important and intensely active area in which the results will have long-lasting significance in implantable rechargeable battery development; (ii)The development of new scientific knowledge related to this project will place Australia at the forefront of an emerging domain of research body batteries; (iii) In the long term, the successful outcome of this research will lead to more reliable batteries for implantable devices, thereby promoting health care.Read moreRead less
Development of a market relevant DNA nano-vaccine platform. DNA vaccine technology can potentially provide a rapid response to existing or new pathogens, but its market success has been limited. By addressing key scientific and technical challenges, this project aims to develop a new and cost-effective DNA nanovaccine platform using a multiscale engineering approach. It is anticipated that novel nanoparticles for DNA delivery and an end-user-driven DNA vaccine technology with enhanced immunogeni ....Development of a market relevant DNA nano-vaccine platform. DNA vaccine technology can potentially provide a rapid response to existing or new pathogens, but its market success has been limited. By addressing key scientific and technical challenges, this project aims to develop a new and cost-effective DNA nanovaccine platform using a multiscale engineering approach. It is anticipated that novel nanoparticles for DNA delivery and an end-user-driven DNA vaccine technology with enhanced immunogenicity, stability and safety will be generated. Expected outcomes include new knowledge in nanomaterial science and a market ready technology platform, improving Australia’s capabilities in nanobiotechnology and vaccine development, as well as delivering a new value-added product for the Industry Partner. Read moreRead less
Development of Unprecedented Aluminosilicate Adjuvants. High-performance adjuvants are essential components of vaccine technology. Aluminium-based adjuvants are widely used, but provide weak cellular immunity and possible risk of neurotoxicity. Combining state-of-the-art nanotechnology and classic coordination chemistry, this project aims to apply a new design principle to create novel mesoporous aluminosilicate nanoparticles with alkalinity, for use as nanoadjuvants. This project expects to adv ....Development of Unprecedented Aluminosilicate Adjuvants. High-performance adjuvants are essential components of vaccine technology. Aluminium-based adjuvants are widely used, but provide weak cellular immunity and possible risk of neurotoxicity. Combining state-of-the-art nanotechnology and classic coordination chemistry, this project aims to apply a new design principle to create novel mesoporous aluminosilicate nanoparticles with alkalinity, for use as nanoadjuvants. This project expects to advance knowledge of how immune systems respond to changes in chemistry and nanostructure of aluminosilicate materials and enable the design of nanoadjuvants with enhanced cellular immunity and reduced toxicity. Outcomes include a new family of functional materials with unprecedented adjuvant performance.Read moreRead less
Next-Generation Multifunctional Nanoparticles for mRNA Transfection. This project aims to engineer a multifunctional nanoparticle platform tailored for mRNA delivery. An innovative assembly approach will be used to design nanoparticles with adjustable composition, asymmetry and surface topography. Uniquely, three functions will be integrated in one nanoparticle, with the goal to enhance transfection efficiency in target cells. This project expects to advance knowledge of mRNA transfection mechan ....Next-Generation Multifunctional Nanoparticles for mRNA Transfection. This project aims to engineer a multifunctional nanoparticle platform tailored for mRNA delivery. An innovative assembly approach will be used to design nanoparticles with adjustable composition, asymmetry and surface topography. Uniquely, three functions will be integrated in one nanoparticle, with the goal to enhance transfection efficiency in target cells. This project expects to advance knowledge of mRNA transfection mechanisms, and determine how cell-type dependent particle-mRNA interactions correlate with the nanoparticle structure and delivery performance. Outcomes include a new family of functional materials with improved mRNA delivery performance over benchmark systems to facilitate and broaden the application of mRNA technology.Read moreRead less
Bio-inspired conducting peptide nanowires for bioelectronic applications. Some bacteria possess a natural conductive tail constructed from proteins (called a nanowire) that has metal-like conductivity. The electrical signals in these nanowires are carried through aromatic groups in the peptides and/or attached cytochromes. This project addresses the design and assembly of conducting peptide-based fibrils inspired by these nanowires. It has already been shown that peptides can, by design, self-as ....Bio-inspired conducting peptide nanowires for bioelectronic applications. Some bacteria possess a natural conductive tail constructed from proteins (called a nanowire) that has metal-like conductivity. The electrical signals in these nanowires are carried through aromatic groups in the peptides and/or attached cytochromes. This project addresses the design and assembly of conducting peptide-based fibrils inspired by these nanowires. It has already been shown that peptides can, by design, self-assemble into long thermostable fibrils that support cell growth and development. The project’s goal is now to create cost-effective, non-toxic, conducting peptide fibrils that can be used in water or physiological environments for bioelectronics applications.Read moreRead less
Harnessing properties of liquid metals for future devices. This project aims to hybridise low toxicity liquid metal alloys of gallium with surface confined functional micro/nano materials and explore fundamental new fluidic and physical-chemistry phenomena. Liquid metals are an under-used group of materials, but their combination of flexibility, bestowed by their room temperature fluidity, and metallic properties means they demonstrate startling behaviour. The expected outcomes are new devices a ....Harnessing properties of liquid metals for future devices. This project aims to hybridise low toxicity liquid metal alloys of gallium with surface confined functional micro/nano materials and explore fundamental new fluidic and physical-chemistry phenomena. Liquid metals are an under-used group of materials, but their combination of flexibility, bestowed by their room temperature fluidity, and metallic properties means they demonstrate startling behaviour. The expected outcomes are new devices and systems such as reconfigurable and highly efficient actuators/generators, catalysts, sensors, and electronic and optical components.Read moreRead less
A Mechanistic Approach to the Compression Properties of Z-Pinned Composites. The proposed research is a fundamental investigation of the compressive mechanical properties and failure mechanisms of fibre reinforced polymer (FRP) composites reinforced with z-pins. These composites are a new material with strong potential applications in aerospace structures subject to high compressive loads, however their compressive properties are poorly understood. Using theoretical modelling, finite element an ....A Mechanistic Approach to the Compression Properties of Z-Pinned Composites. The proposed research is a fundamental investigation of the compressive mechanical properties and failure mechanisms of fibre reinforced polymer (FRP) composites reinforced with z-pins. These composites are a new material with strong potential applications in aerospace structures subject to high compressive loads, however their compressive properties are poorly understood. Using theoretical modelling, finite element analysis and experimentation, the research program will greatly enhance the fundamental understanding of the strengthening and failure mechanisms of z-pinned composites. A key outcome of the research will be design guidelines for optimising the pinning of composites for maximum structural performance in aerospace applications.Read moreRead less
Condition monitoring and process control of injection molding. Injection molding has been widely used in automotive industry and improvement of the productivity and quality of the products is very important for the injection molding production to be internationally competitive. The aim of this project is to develop a condition monitoring and process control system to monitor the key parameters of the injection molding processes, to optimise the design and process conditions, and consequently, to ....Condition monitoring and process control of injection molding. Injection molding has been widely used in automotive industry and improvement of the productivity and quality of the products is very important for the injection molding production to be internationally competitive. The aim of this project is to develop a condition monitoring and process control system to monitor the key parameters of the injection molding processes, to optimise the design and process conditions, and consequently, to more actively control the processes. This will lead to an more reliable process, improved productivity and production of higher quality of moldings.Read moreRead less
DEVELOPMENT OF SCIENTIFIC AND EXPERIMENTAL BASIS FOR MANUFACTURE OF BUILDING MATERIALS WITH SPECIAL PROPERTIES BASED ON GEOPOLYMERS. This project seeks to develop a new class of building materials based on geopolymers. These materials will have superior corrosion resistance, fire resistance, heat and noise insulating properties. The project will study in detail the effect of processing parameters on microstructure of these materials, and effect of structure and composition on properties. A good ....DEVELOPMENT OF SCIENTIFIC AND EXPERIMENTAL BASIS FOR MANUFACTURE OF BUILDING MATERIALS WITH SPECIAL PROPERTIES BASED ON GEOPOLYMERS. This project seeks to develop a new class of building materials based on geopolymers. These materials will have superior corrosion resistance, fire resistance, heat and noise insulating properties. The project will study in detail the effect of processing parameters on microstructure of these materials, and effect of structure and composition on properties. A good understanding of this would result in environmentally friendly inexpensive inorganic materials with superior durability, chemical and fire resistance, heat and noise insulation properties that can substitute organic polymers and ordinary Portland cement concrete in special applications.Read moreRead less