Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100033
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Green biopolymer nanocomposites facility: supercritical carbon dioxide characterisation and processing for nanomaterials and biopolymers. This facility will house characterisation and processing equipment for developing the next generation biopolymer materials. Novel biopolymers will be developed from natural and renewable resources using improved performance and lower energy supercritical carbon dioxide processing methods.
Self-reinforced biopolymer composites. This project will pioneer high performance and biodegradable composites using self-reinforced biopolymer composites. Composites can have poor properties due to interfacial issues, and this reduces their performance. By producing a fully self-reinforced (where the fibre and the polymer are the same type of polymer) polymer composites, the project will develop a way to improve properties, increase the use of biobased materials, and improve recyclability and b ....Self-reinforced biopolymer composites. This project will pioneer high performance and biodegradable composites using self-reinforced biopolymer composites. Composites can have poor properties due to interfacial issues, and this reduces their performance. By producing a fully self-reinforced (where the fibre and the polymer are the same type of polymer) polymer composites, the project will develop a way to improve properties, increase the use of biobased materials, and improve recyclability and biodegradability. Outcomes include greater understanding of design of self-reinforced biopolymer composites structure, processing and properties. This will produce opportunities for high performance biobased composite manufacturing and a growing circular plastics economy for Australia.Read moreRead less
Nanoporous Epoxy Thermosets via Microphase Separation of Block Copolymers. This project has many expected outcomes and benefits to Australia: (1) Development of the first technology to produce nanoporous epoxy thermosets (i.e. epoxy nanofoams) that may have many applications in microelectronics, optical waveguides and biological separations; (2) Providing impetus for an advanced materials synthesis and manufacturing industry for Australia and contributing to the Frontier Technologies National Re ....Nanoporous Epoxy Thermosets via Microphase Separation of Block Copolymers. This project has many expected outcomes and benefits to Australia: (1) Development of the first technology to produce nanoporous epoxy thermosets (i.e. epoxy nanofoams) that may have many applications in microelectronics, optical waveguides and biological separations; (2) Providing impetus for an advanced materials synthesis and manufacturing industry for Australia and contributing to the Frontier Technologies National Research Priority-Advanced Materials Priority Goals; (3) The development of new niche markets with these new materials and the new technologies, which is an excellent vehicle for Australia to move to a high-value added industrial portfolio that maximises return and promotes job growth.Read moreRead less
Core-shell nanofibrous bio-based flame retardants with reinforcement function. This project aims to develop high-performance bio-based flame retardants (FRs) by designing a novel core-shell nanofibrous FR system, combining exceptional flame retardant qualities and mechanical reinforcement to enhance the safe use of thermoplastic products. Thermoplastic products are widespread in building, electric and electronic, automobile and packaging products, but their intrinsic flammability poses great fir ....Core-shell nanofibrous bio-based flame retardants with reinforcement function. This project aims to develop high-performance bio-based flame retardants (FRs) by designing a novel core-shell nanofibrous FR system, combining exceptional flame retardant qualities and mechanical reinforcement to enhance the safe use of thermoplastic products. Thermoplastic products are widespread in building, electric and electronic, automobile and packaging products, but their intrinsic flammability poses great fire threats to the society. Flame retardants are key to producing fire-resistant plastic products with a low fire hazard rating. The novel bio-based flame retardant material developed by this project seeks to combine enhanced flame retardant properties and mechanical reinforcement functions. The outcomes of the project will demonstrate eco-friendly flame retardants and high performance flame retardant thermoplastic products.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0211003
Funder
Australian Research Council
Funding Amount
$125,000.00
Summary
A Facility for Probing Nanostructure in Polymers. The properties of a polymer are only partly determined by its molecular structure. It is now clear that the organization of molecular structure and phase morphology on a nano-scale has an equally important role in determining material behaviour. Increasingly this can be manipulated by judicious choice of formulation and processing variables. The polymer Nano-Structure Facility will bring together Australia's principal polymer experts in this a ....A Facility for Probing Nanostructure in Polymers. The properties of a polymer are only partly determined by its molecular structure. It is now clear that the organization of molecular structure and phase morphology on a nano-scale has an equally important role in determining material behaviour. Increasingly this can be manipulated by judicious choice of formulation and processing variables. The polymer Nano-Structure Facility will bring together Australia's principal polymer experts in this area of structure-property relations and provide them with shared access to the appropriate, modern analytical tools required to probe the nano-structure of such new materials with enhanced properties.Read moreRead less
Printable technologies for high security documents and consumer products. Printable technologies for high security documents and consumer products. This project aims to develop two next-generation printable security feature technologies to protect users from counterfeiting, which costs the world economy billions in lost revenue and undermines the security of citizens. First, it aims to enhance the security of banknotes by developing printable active device patches with energy harvesting flexible ....Printable technologies for high security documents and consumer products. Printable technologies for high security documents and consumer products. This project aims to develop two next-generation printable security feature technologies to protect users from counterfeiting, which costs the world economy billions in lost revenue and undermines the security of citizens. First, it aims to enhance the security of banknotes by developing printable active device patches with energy harvesting flexible polymers as a power source and thin film graphene/polymer nanomaterial as an electrode/energy storage media. Second, it aims to design invisible carbon nanotube inks for optical authentication via near infrared activation. Both technologies are expected to thwart sophisticated counterfeits, particularly those supported by organised crime.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668517
Funder
Australian Research Council
Funding Amount
$220,000.00
Summary
Hyphenated techniques in polymer science and engineering. The collaborator's research capabilities will be greatly enhanced because the equipment will allow simultaneous measurements of various properties which can provide much more information than sequential experiments. Students will be able to undertake research with state-of-the-art equipment which will enhance their research careers and employment prospects. The resulting information will be invaluable to the development of polymer blends ....Hyphenated techniques in polymer science and engineering. The collaborator's research capabilities will be greatly enhanced because the equipment will allow simultaneous measurements of various properties which can provide much more information than sequential experiments. Students will be able to undertake research with state-of-the-art equipment which will enhance their research careers and employment prospects. The resulting information will be invaluable to the development of polymer blends with optimized morphology and mechanical properties; improved polymer processing techniques linked to how the structure and orientation develops; the development of new materials, including novel human tissue implants, from studies of the rheology and phase structure of a polymer during photopolymerization.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH170100020
Funder
Australian Research Council
Funding Amount
$2,641,142.00
Summary
ARC Research Hub for Processing Lignocellulosics into High Value Products. The ARC Research Hub for Processing Lignocellulosics into High Value Products aims to convert renewable and readily-available biomass material and waste streams from the Australian Pulp, Paper and Forest Industry into new, high-value products that are in high demand in existing and developing markets. The Research Hub will translate leading scientific discoveries in biomass conversion into the manufacture of advanced mate ....ARC Research Hub for Processing Lignocellulosics into High Value Products. The ARC Research Hub for Processing Lignocellulosics into High Value Products aims to convert renewable and readily-available biomass material and waste streams from the Australian Pulp, Paper and Forest Industry into new, high-value products that are in high demand in existing and developing markets. The Research Hub will translate leading scientific discoveries in biomass conversion into the manufacture of advanced materials that can be used in the industries of the future. Research aims to identify new applications and products. They will be derived from lignocellulose through the advent of new smart paper packaging, green chemical and materials with unique properties. Benefits will flow to the pharmaceutical, chemicals, plastics and food packaging industries.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC210100023
Funder
Australian Research Council
Funding Amount
$4,943,949.00
Summary
ARC Training Centre in Bioplastics and Biocomposites. There is unprecedented growth in demand for bioderived and biodegradable materials. This Training Centre in Bioplastics and Biocomposites will capitalise on Australia’s abundance of the requisite natural bioresources to drive advances in technology for the development of bioplastic and biocomposite products for the new bioeconomy. The aim is to deliver leading edge research with a holistic focus on technical, social, policy and end of life so ....ARC Training Centre in Bioplastics and Biocomposites. There is unprecedented growth in demand for bioderived and biodegradable materials. This Training Centre in Bioplastics and Biocomposites will capitalise on Australia’s abundance of the requisite natural bioresources to drive advances in technology for the development of bioplastic and biocomposite products for the new bioeconomy. The aim is to deliver leading edge research with a holistic focus on technical, social, policy and end of life solutions, training a cohort of industry ready research specialists to underpin Australia’s transition to a globally significant bioplastics and biocomposites industry, while at the same time laying the foundations for accelerated growth in this space.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC180100049
Funder
Australian Research Council
Funding Amount
$4,380,454.00
Summary
ARC Training Centre for Future Energy Storage Technologies. The ARC Training Centre for Future Energy Storage Technologies aims to equip the next generation of researchers and the energy technology workforce with the skills needed to drive innovation, exploration and investigation so we safeguard our workers and industries. The Centre aims to challenge existing thinking and expand Australia’s capacity in energy storage and production. The Centre expects to create new knowledge and intellectual p ....ARC Training Centre for Future Energy Storage Technologies. The ARC Training Centre for Future Energy Storage Technologies aims to equip the next generation of researchers and the energy technology workforce with the skills needed to drive innovation, exploration and investigation so we safeguard our workers and industries. The Centre aims to challenge existing thinking and expand Australia’s capacity in energy storage and production. The Centre expects to create new knowledge and intellectual property in advanced energy materials, batteries and battery-control systems for integration into end user industries. This Centre will facilitate small to medium-sized enterprises to take a global leadership role in advancing and producing new age storage technologies. By harnessing the expertise of researchers and industry partners the Centre aims to deliver benefit to our economy, the community and the environment.
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