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
Synthesis, Biological Interactions and Toxicity Studies of Precisely Engineered Nanoparticles. The proposed benefits of nanotechnology for industries from material sciences, to bioengineering, energy and the environment are currently driving unprecedented growth in this technology world-wide. Some of these benefits are borne out of the unique properties that different nanoparticles exhibit. However, if nanomaterials pose a threat to the health and well-being of the community, then their risks ....Synthesis, Biological Interactions and Toxicity Studies of Precisely Engineered Nanoparticles. The proposed benefits of nanotechnology for industries from material sciences, to bioengineering, energy and the environment are currently driving unprecedented growth in this technology world-wide. Some of these benefits are borne out of the unique properties that different nanoparticles exhibit. However, if nanomaterials pose a threat to the health and well-being of the community, then their risks may outweigh their benefits. This project will identify those characteristics of nanoparticles that can lead to adverse effects and therefore pose a danger to the general community. By defining these characteristics, appropriate changes in nanomaterial production can be considered by industry to minimise these dangers.Read moreRead less
Exploiting the properties of gold nanoparticles for nanolithography using visible wavelengths. The next generation of nano-devices, such as biosensors and molecular electronics, will require nanopatterning as part of the production process. Conventional optical lithographies cannot provide sufficient resolution, and alternative techniques, such as e-beam lithographies are expensive. This project aims to demonstrate a solution to this problem with obvious commercial benefit. It is the first t ....Exploiting the properties of gold nanoparticles for nanolithography using visible wavelengths. The next generation of nano-devices, such as biosensors and molecular electronics, will require nanopatterning as part of the production process. Conventional optical lithographies cannot provide sufficient resolution, and alternative techniques, such as e-beam lithographies are expensive. This project aims to demonstrate a solution to this problem with obvious commercial benefit. It is the first time a multidisciplinary team has made such a concerted effort to understand the unusual science of gold nanoparticles and will strengthen Australia's already considerable reputation in this field.Read moreRead less
Nanocrystal Electronics: A Sol-Gel Approach. Australia is building capability in printable electronics, which will supersede traditional semiconductor fabrication methods. The main goals are to mass produce key electronic structures such as display devices, solar cells and sensors using cheaper, non-clean room based technologies via ink-jet printing and other high throughput methods. The integration of sol-gel based materials into roll-to-roll manufacturing will advance Australian manufacturing ....Nanocrystal Electronics: A Sol-Gel Approach. Australia is building capability in printable electronics, which will supersede traditional semiconductor fabrication methods. The main goals are to mass produce key electronic structures such as display devices, solar cells and sensors using cheaper, non-clean room based technologies via ink-jet printing and other high throughput methods. The integration of sol-gel based materials into roll-to-roll manufacturing will advance Australian manufacturing capabilities and generate new jobs in the rapidly growing printable electronics field.Read moreRead less
Synthesis of novel microporous metallosilicate adsorbents. Nano-engineered materials will play an enormous role in the 21st century. As our understanding of the molecular structure of materials improves and our manipulation techniques develop, it will become possible to create materials that direct desirable reactions and separations with unprecedented yields and specificity. The proposed work aims to develop novel synthetic microporous metallosilicates using a variety of experimental approach ....Synthesis of novel microporous metallosilicate adsorbents. Nano-engineered materials will play an enormous role in the 21st century. As our understanding of the molecular structure of materials improves and our manipulation techniques develop, it will become possible to create materials that direct desirable reactions and separations with unprecedented yields and specificity. The proposed work aims to develop novel synthetic microporous metallosilicates using a variety of experimental approaches to nano-engineer superior adsorbents for gas separations. We expect the project to contribute to fundamental knowledge of creating tailor-made microporous adsorbents and lead to important fundamental and applied intellectual property for Australian industry.Read moreRead less
Engineering nanoscale material properties by controlled-temperature indentation. The research is in a field of high national priority, namely nanotechnology. The technology is based on semiconductor modification at the nanoscale by nanoindentation. This project will further provide valuable opportunities for a number of research students and early-career researchers to gain skills as well as learn techniques and processes needed for Australia's nanotechnology workforce. Australia will further ....Engineering nanoscale material properties by controlled-temperature indentation. The research is in a field of high national priority, namely nanotechnology. The technology is based on semiconductor modification at the nanoscale by nanoindentation. This project will further provide valuable opportunities for a number of research students and early-career researchers to gain skills as well as learn techniques and processes needed for Australia's nanotechnology workforce. Australia will further benefit as the skills and knowledge garnered from this work will be patented at every opportunity and transferred to a spin-off company, WRiota.Read moreRead less
Nanocavities and Nanoparticles in Silicon-based Materials Tailored by Ion Implantation. Nanometre sized crystals embedded in different host materials can exhibit novel optical behaviour, including light emission. However, the optical properties depend critically on the ability to tailor the size and size distribution of such nanocrystal inclusions, parameters that are extremely difficult to control. This project is based on our previous discovery that small holes of controlled size and distri ....Nanocavities and Nanoparticles in Silicon-based Materials Tailored by Ion Implantation. Nanometre sized crystals embedded in different host materials can exhibit novel optical behaviour, including light emission. However, the optical properties depend critically on the ability to tailor the size and size distribution of such nanocrystal inclusions, parameters that are extremely difficult to control. This project is based on our previous discovery that small holes of controlled size and distribution can be formed in silicon by ion irradiation and that such cavities can be filled with fast diffusing elemental species. We intend to explore this novel concept to tailor the size of desired nanocrystals in silicon-based materials for optoelectronics applications.Read moreRead less
Mechanical deformation of layered semiconductor structures. This project aims to reveal the mechanisms of mechanical deformation in thin film layered semiconductors structures. Currently, there is little knowledge in this area despite the importance of such structures in electronic and optoelectronic devices. Layered structures are not expected to respond to mechanical stress in the same way as bulk materials, as a result of size constraints in nanoscale films, the critical importance of strai ....Mechanical deformation of layered semiconductor structures. This project aims to reveal the mechanisms of mechanical deformation in thin film layered semiconductors structures. Currently, there is little knowledge in this area despite the importance of such structures in electronic and optoelectronic devices. Layered structures are not expected to respond to mechanical stress in the same way as bulk materials, as a result of size constraints in nanoscale films, the critical importance of strain, and the possibility of disparities between the mechanical properties of the individual layers. The results of this project will dramatically enhance the understanding of the deformation responses of nanoscale structures to mechanical stress.Read moreRead less
ARC Centre of Excellence - Australian Centre for Electromaterials Science. The Centre will tackle some of the biggest challenges facing society: those of renewable energy, sustainable industries and enhancing human health. Improvements in all these areas are possible by developing electromaterials with improved efficiency in the generation and transfer of electrical charge. By developing new nano-materials and new theories to explain their behaviour, the Centre will make advances in the areas ....ARC Centre of Excellence - Australian Centre for Electromaterials Science. The Centre will tackle some of the biggest challenges facing society: those of renewable energy, sustainable industries and enhancing human health. Improvements in all these areas are possible by developing electromaterials with improved efficiency in the generation and transfer of electrical charge. By developing new nano-materials and new theories to explain their behaviour, the Centre will make advances in the areas of human health through the regeneration of damaged nerves (eg. in spinal injury) and development of artificial muscles; in renewable energy (plastic solar cells, lightweight batteries and electronic textiles) and in sustainable industries (recovery of precious metals and new corrosion protection technologies).Read moreRead less
Spectroscopy of Single Quantum Dots. Colloidal semiconductor quantum dots are materials with promising applications in flat panel displays, biosensors, quantum dot lasers, and optical communication elements. Many of the applications are novel and require firm understanding of the physical and chemical properties of quantum dots to optimise reliability and performance. To fulfil the technological promise of fluorescent quantum dots, problems relating to quantum yield and photostability urgently n ....Spectroscopy of Single Quantum Dots. Colloidal semiconductor quantum dots are materials with promising applications in flat panel displays, biosensors, quantum dot lasers, and optical communication elements. Many of the applications are novel and require firm understanding of the physical and chemical properties of quantum dots to optimise reliability and performance. To fulfil the technological promise of fluorescent quantum dots, problems relating to quantum yield and photostability urgently need to be resolved. These issues will be addressed through spectroscopic studies of single quantum dots both in vacuum and in condensed phases. Ultimately, the findings will guide rational design of nanoscale devices based on quantum dot luminescence.Read moreRead less