Nanostructured films for optical document security. This project aims to develop a new class of synthetic thin films, with unique optical signatures as strong anti-counterfeiting features for future generations of Australian banknotes. The project expects to produce novel, ultra-thin films patterned on the nanoscale that produce vivid, easily recognisable optical effects building on recent advances in nanophotonic optical design and scalable nanofabrication strategies. The development of a range ....Nanostructured films for optical document security. This project aims to develop a new class of synthetic thin films, with unique optical signatures as strong anti-counterfeiting features for future generations of Australian banknotes. The project expects to produce novel, ultra-thin films patterned on the nanoscale that produce vivid, easily recognisable optical effects building on recent advances in nanophotonic optical design and scalable nanofabrication strategies. The development of a range of optical security features in Australia will ensure long-term confidence in our currency. An outcome of the project could be the commercialisation of new types of anti-counterfeiting features for use in Australia and overseas.Read moreRead less
Nanostructured Carbon Electrodes. The development of higher capacity energy storage devices is critical to the efficient use of energy. The fundamental knowledge gained in this project will enable the production of the next generation advanced electrode materials for this purpose and hence provide many new commercial opportunities for Australian industry. The project brings together world leaders in their own fields to address a highly multidisciplinary area of research and will provide an excel ....Nanostructured Carbon Electrodes. The development of higher capacity energy storage devices is critical to the efficient use of energy. The fundamental knowledge gained in this project will enable the production of the next generation advanced electrode materials for this purpose and hence provide many new commercial opportunities for Australian industry. The project brings together world leaders in their own fields to address a highly multidisciplinary area of research and will provide an excellent training for PhD students and post doctoral Research Fellows, enabling them to work in and contribute to the development of new nanotechnology industries in Australia.Read moreRead less
Novel 3D Carbon Architectures for Fuel Cell Applications. The implementation of clean energy technologies has clear economic, environmental and social benefits for Australia, its industries and population. This project has the potential to make a significant impact on fuel cell research as an alternative means of energy production. We aim to remove some of the technical and economic barriers through product and process innovation at the nanoscale. Building on a strong track record in advanced ma ....Novel 3D Carbon Architectures for Fuel Cell Applications. The implementation of clean energy technologies has clear economic, environmental and social benefits for Australia, its industries and population. This project has the potential to make a significant impact on fuel cell research as an alternative means of energy production. We aim to remove some of the technical and economic barriers through product and process innovation at the nanoscale. Building on a strong track record in advanced materials research, this project investigates the integration of novel carbon nanostructures with extraordinary properties to produce high performance electrodes, that should lead to significant improvement in fuel cell performance.Read moreRead less
Biodegradable polymeric microparticles for targeted delivery. The use of microparticles with tuneable physicochemical properties and loading characteristics is of interest in the fields of biomaterials, drug delivery and imaging. Such engineered particles are likely to address problems associated with conventional drugs and drug carriers, including poor disease site selectivity, polymer toxicity, non-biodegradability and free diffusion of drugs throughout the body. These microparticles may provi ....Biodegradable polymeric microparticles for targeted delivery. The use of microparticles with tuneable physicochemical properties and loading characteristics is of interest in the fields of biomaterials, drug delivery and imaging. Such engineered particles are likely to address problems associated with conventional drugs and drug carriers, including poor disease site selectivity, polymer toxicity, non-biodegradability and free diffusion of drugs throughout the body. These microparticles may provide direct advantages to society, including minimally invasive and fast in-vivo diagnostics, localised delivery of drugs and therapeutic agents with increased bioavailability, patient acceptability and reduced healthcare costs.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454166
Funder
Australian Research Council
Funding Amount
$1,305,029.00
Summary
Nanoscale Materials Characterization Facility. We request a transmission and a scanning electron microscope, each with specialist electron probes smaller than a nanometre, which can selectively analyse the atomic structure and chemistry of sub-nanometre regions of material.
These capabilities are essential to advance a large range of research projects at the cutting-edge of materials science and engineering, undertaken by Victoria's leading research institutions: five Victorian universities, ....Nanoscale Materials Characterization Facility. We request a transmission and a scanning electron microscope, each with specialist electron probes smaller than a nanometre, which can selectively analyse the atomic structure and chemistry of sub-nanometre regions of material.
These capabilities are essential to advance a large range of research projects at the cutting-edge of materials science and engineering, undertaken by Victoria's leading research institutions: five Victorian universities, the CSIRO, Nanotechnology Victoria Ltd, the Victorian Centre for Advanced Materials Manufacturing and the CRC for Microtechnology. Together they have contributed $2.58 million to this project.
This state-of-the-art facility will include the highest spatial resolution microscope in Australia.
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Special Research Initiatives - Grant ID: SR0354775
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Australian Synchrotron Sciences Network. A synchrotron light source is a critical piece of infrastructure for a modern technological nation. In 2001, the Victorian government announced that it would contribute $157M towards the establishment of a national synchrotron facility, becoming operational in 2007. The research performed at such a facility is exceedingly diverse, and often the underpinning technology is the only point of contact for users. A vibrant and productive facility requires a tra ....Australian Synchrotron Sciences Network. A synchrotron light source is a critical piece of infrastructure for a modern technological nation. In 2001, the Victorian government announced that it would contribute $157M towards the establishment of a national synchrotron facility, becoming operational in 2007. The research performed at such a facility is exceedingly diverse, and often the underpinning technology is the only point of contact for users. A vibrant and productive facility requires a transparent interface between the scientist and the technology. This Network will set up the communication channels within the user base, and between the users and the facility development program.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882821
Funder
Australian Research Council
Funding Amount
$750,000.00
Summary
Ion Beam Nanofabrication and Characterisation Facility for Advanced Materials Research. The requested instrumentation is essential to advance a range of activities at the cutting-edge of materials research and in order to maintain word class research activities in Victoria. The instrumentation requested will build on collaborative links and cultivate enhanced usage of existing facilities between partner organisations. The facility will enhance progress in nanotechnology, biotechnology and materi ....Ion Beam Nanofabrication and Characterisation Facility for Advanced Materials Research. The requested instrumentation is essential to advance a range of activities at the cutting-edge of materials research and in order to maintain word class research activities in Victoria. The instrumentation requested will build on collaborative links and cultivate enhanced usage of existing facilities between partner organisations. The facility will enhance progress in nanotechnology, biotechnology and materials sciences, not only training the next generation of researchers to drive these critical areas, but maintaining Australia's track record as an innovator and developer of advanced materials.Read moreRead less
Nanotribology and Nanorheometry: A Fundamental Study of the Dynamic Interactions of Particles and Surfaces at the Molecular Level. Friction and deformation occur from the mutual motion and interaction of microscopic particles and surfaces. This research aims to develop new theories and measurement techniques for these non-equilibrium phenomena by combining mathematical analysis and numerical computations with dynamic force measurement, surface modification, and surface characterisation on nanom ....Nanotribology and Nanorheometry: A Fundamental Study of the Dynamic Interactions of Particles and Surfaces at the Molecular Level. Friction and deformation occur from the mutual motion and interaction of microscopic particles and surfaces. This research aims to develop new theories and measurement techniques for these non-equilibrium phenomena by combining mathematical analysis and numerical computations with dynamic force measurement, surface modification, and surface characterisation on nanometre and molecular length scales. These insights and data will be critically important in designing low-friction surfaces that save energy and wear, in developing nanoscopic probes for the mechanical and structural properties of soft polymeric and bio-materials, and in making high performance coatings that control adhesion and particle aggregation in technologically advanced applications.Read moreRead less
Dual nanoparticles to distinguish between right and left biomolecules. This project aims to enhance the sensitivity of optical activity to ultralow molecular concentration samples. Optical activity is a commercially available technique used to distinguish chemically identical and morphologically different biomolecules (enantiomers). Unlike other scattering techniques, near-field enhancing of optical activity has not been achieved, thus limiting these measurements to high molecular concentrations ....Dual nanoparticles to distinguish between right and left biomolecules. This project aims to enhance the sensitivity of optical activity to ultralow molecular concentration samples. Optical activity is a commercially available technique used to distinguish chemically identical and morphologically different biomolecules (enantiomers). Unlike other scattering techniques, near-field enhancing of optical activity has not been achieved, thus limiting these measurements to high molecular concentrations. There is evidence indicating that optical activity can be enhanced using dual nanoparticles (ie small particles with the same response to electric and magnetic fields). This project aims to advance our understanding of these dual nanoparticles and experimentally implement their use to enhance optical activity.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775679
Funder
Australian Research Council
Funding Amount
$700,000.00
Summary
Advanced Microscopy Infrastructure for use in Frontier Technologies. This proposal seeks to establish key microscopy facilities to support the research projects from leading researchers from four major Universities. The new facilities build on the close collaborative links between the partner organisations and the request is for specialised equipment that is complementary to that available at, for example, the Australian Synchrotron. The new facilities will enhance progress in the the important ....Advanced Microscopy Infrastructure for use in Frontier Technologies. This proposal seeks to establish key microscopy facilities to support the research projects from leading researchers from four major Universities. The new facilities build on the close collaborative links between the partner organisations and the request is for specialised equipment that is complementary to that available at, for example, the Australian Synchrotron. The new facilities will enhance progress in the the important areas of nanotechnology, biotechnology and advanced materials to the benefit of the community and will play a crucial role in training the next generation of researchers to drive these critical areas of science and technology.Read moreRead less