Exploring the Dynamics of Nanostructure Self-Organisation during Compound Semiconductor Epitaxy. The application of LEEM to GaAs and InAs will be a world first, positioning Australia at the forefront of nanoscale self-organisation, leading to important international recognition and publicity. The spectacular movies obtained will revolutionise our basic understanding of compound semiconductor self-organisation and facilitate an improved control over nanostructure fabrication using MBE. This will ....Exploring the Dynamics of Nanostructure Self-Organisation during Compound Semiconductor Epitaxy. The application of LEEM to GaAs and InAs will be a world first, positioning Australia at the forefront of nanoscale self-organisation, leading to important international recognition and publicity. The spectacular movies obtained will revolutionise our basic understanding of compound semiconductor self-organisation and facilitate an improved control over nanostructure fabrication using MBE. This will generate entirely new device structures relevant to the frontier technologies of photonics and quantum information processing. The project will provide high level training for post-graduate and honours students in nanoscale characterisation and synchrotron science.Read moreRead less
Biodegradable immuno-therapeutic nanoparticles. The national benefit relates directly to Promoting and Maintaining Good Health through preventative healthcare as this project will develop a new vaccine delivery platform that will contribute to preventing a host of diseases such as viral infections and malaria. The health benefits of better vaccines directly enhance a Healthy Start to Life and Ageing Well. This area of nanoparticle therapies is a global 'hot spot' and this multi-disciplinary team ....Biodegradable immuno-therapeutic nanoparticles. The national benefit relates directly to Promoting and Maintaining Good Health through preventative healthcare as this project will develop a new vaccine delivery platform that will contribute to preventing a host of diseases such as viral infections and malaria. The health benefits of better vaccines directly enhance a Healthy Start to Life and Ageing Well. This area of nanoparticle therapies is a global 'hot spot' and this multi-disciplinary team could make huge and rapid progressions in this area of therapeutics. New intellectual property in the area of therapeutic particle production is the cornerstone of this project and could deliver lasting economic benefits through the creation of new health products and patents.Read moreRead less
Novel nanostructured alloy membranes for hydrogen permeation: Advanced materials technology for renewable energy. Hydrogen purification by alloy membranes is a key technology in maintaining the greenhouse gas emission low while using the fossil fuels including coal for energy generation. However, the alloys currently available for the membrane separation are mostly based on a costly precious metal palladium, making the application of the technology limited. The proposed non-equilibrium material ....Novel nanostructured alloy membranes for hydrogen permeation: Advanced materials technology for renewable energy. Hydrogen purification by alloy membranes is a key technology in maintaining the greenhouse gas emission low while using the fossil fuels including coal for energy generation. However, the alloys currently available for the membrane separation are mostly based on a costly precious metal palladium, making the application of the technology limited. The proposed non-equilibrium material processing will enable us to fabricate novel nanocomposite niobium-based alloys to which excellent hydrogen permeation characteristics are expected with high economic viability. Successful development of the proposed alloys could enhance the competitiveness of the Australian coal industry worldwide.Read moreRead less
Advanced products through multiscale microstructure engineering. The metals manufacturing industry is one of the most important in Australia. Future growth and sustainability of the sector is critically dependent on the development of innovative metal products and materials.. In this program Australia's leading research group in metal manufacturing will develop new products and processes through the controlled manipulation of the microstructure at a number of levels: from nano scale to macro s ....Advanced products through multiscale microstructure engineering. The metals manufacturing industry is one of the most important in Australia. Future growth and sustainability of the sector is critically dependent on the development of innovative metal products and materials.. In this program Australia's leading research group in metal manufacturing will develop new products and processes through the controlled manipulation of the microstructure at a number of levels: from nano scale to macro scale. The areas of application include the automotive industry, biomaterials, surface engineering and the emerging area of microforming technologiesRead moreRead less
Exploring the bio-nano interface in plants to enhance crop growth. This project aims to improve the delivery of nutrients and therapeutics to plants by understanding their interactions with nanomaterials. This will create new knowledge on the impact of air, water, and soilborne nanomaterials utilizing cutting-edge bio-nano characterization techniques, innovative lab testing, and high-throughput nanoparticle coating and screening. Expected outcomes of the project include 1) an understanding into ....Exploring the bio-nano interface in plants to enhance crop growth. This project aims to improve the delivery of nutrients and therapeutics to plants by understanding their interactions with nanomaterials. This will create new knowledge on the impact of air, water, and soilborne nanomaterials utilizing cutting-edge bio-nano characterization techniques, innovative lab testing, and high-throughput nanoparticle coating and screening. Expected outcomes of the project include 1) an understanding into how nanomaterial coating technologies impact nanomaterial properties, which will 2) shed light on how nanomaterials interact with plants, which leads to 3) breakthroughs in using nanomaterials to deliver nutrients, fertilizers, and pesticides to boost crop yields and productivity in Australian agriculture.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100900
Funder
Australian Research Council
Funding Amount
$366,000.00
Summary
Smart aptamer-guided nanoexosome as a novel biotechnology platform. This project aims to develop guided novel nanomaterials as a new biotechnological platform for in vivo targeted delivery of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) for gene editing. By systematically engineering the surface properties of natural nanovesicles known as exosomes, a novel nanotechnology platform should be established. The guided nano biotechnological platform should not only enable targete ....Smart aptamer-guided nanoexosome as a novel biotechnology platform. This project aims to develop guided novel nanomaterials as a new biotechnological platform for in vivo targeted delivery of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) for gene editing. By systematically engineering the surface properties of natural nanovesicles known as exosomes, a novel nanotechnology platform should be established. The guided nano biotechnological platform should not only enable targeted in vivo precision gene editing via CRISPR but also specific delivery of gene editing machinery across the blood brain barrier for better exploration of fundamental biology of the brain.Read moreRead less
ARC Nanotechnology Research Network. The field of nano scale science, engineering and technology (in short nanotechnology) is just emerging and it is predicted to make a major impact in all technologies and areas of society. Australian Nanotechnology Network intends to harness the combined Australian capability to enable Australia to take a leading role in this rapidly growing field.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775692
Funder
Australian Research Council
Funding Amount
$430,000.00
Summary
Micro/nano optomechatronics sensing, measurement, and control research facility. This project aims to establish a facility that enhances the capabilities for sensing, positioning, and manipulating of micro/nano scale objects and environment, and as such constitutes the building block for many frontier technologies such as nanotechnology, bio/nano medicine, microsurgery and neurosurgery, biotechnology, microbiology, microfluidics, and micro/nano manufacturing, all of which are still in their infa ....Micro/nano optomechatronics sensing, measurement, and control research facility. This project aims to establish a facility that enhances the capabilities for sensing, positioning, and manipulating of micro/nano scale objects and environment, and as such constitutes the building block for many frontier technologies such as nanotechnology, bio/nano medicine, microsurgery and neurosurgery, biotechnology, microbiology, microfluidics, and micro/nano manufacturing, all of which are still in their infancy and promise to be the challenging areas of research for the next two decades. The outcomes will strengthen Australia's position in world-class innovative scientific research. It also strengthens collaboration between major engineering institutions and medical experts for innovative research and training of researchers.Read moreRead less
Using solar photocatalytic oxidation processes to treat organic pollutants in wastewater. The proposal is to use physical-chemical and solar engineering approaches to increase the efficiency of solar photons in the photocatalytic oxidation process applied to the detoxification of organic pollutants in wastewater. New photocatalyists and the effects of photocatalysts's superficial characteristics on the treatment perfomance will be studied. A specific structure for a solar collector for the proce ....Using solar photocatalytic oxidation processes to treat organic pollutants in wastewater. The proposal is to use physical-chemical and solar engineering approaches to increase the efficiency of solar photons in the photocatalytic oxidation process applied to the detoxification of organic pollutants in wastewater. New photocatalyists and the effects of photocatalysts's superficial characteristics on the treatment perfomance will be studied. A specific structure for a solar collector for the process will be developed. A more efficient way to use solar photons in the process and a better conceptual design of solar collector will be two main outcomes expected from the project.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775715
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Advanced facility for ultra high-speed visualisation and real-time diagnostics of particles and droplets. The proposed research facility will offer new tools for advanced manufacturing in Melbourne and provide support for research at the leading universities involved in engineering and science. Testing and characterization equipment can support activities by researchers across different faculties including those of Federation fellows working in the area of nanotechnology and advanced materials. ....Advanced facility for ultra high-speed visualisation and real-time diagnostics of particles and droplets. The proposed research facility will offer new tools for advanced manufacturing in Melbourne and provide support for research at the leading universities involved in engineering and science. Testing and characterization equipment can support activities by researchers across different faculties including those of Federation fellows working in the area of nanotechnology and advanced materials. It fills a desperate need in a niche area. The research is directly aligned to the National Research Priority of Frontier Technologies for Building and Transforming Australian Industries: Advanced Materials.Read moreRead less