Special Research Initiatives - Grant ID: SR0354656
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
Particulate Science and Technology Network. Particulate Science and Technology (PST) is a rapidly developing interdisciplinary research field concerned with particle-related phenomena at different time and length scales and represents a very significant research and development effort in Australia for many years. This network is formed by linking the world-recognized research centres/groups with different expertise. Its aim is to provide greater collaboration among the Australian and overseas re ....Particulate Science and Technology Network. Particulate Science and Technology (PST) is a rapidly developing interdisciplinary research field concerned with particle-related phenomena at different time and length scales and represents a very significant research and development effort in Australia for many years. This network is formed by linking the world-recognized research centres/groups with different expertise. Its aim is to provide greater collaboration among the Australian and overseas researchers and enhance the scale and focus of particulate research. It will help develop and maintain Australia's leading position in PST, generating massive research outcomes and training that can lead to improvement in resource, energy, process and allied industries.Read moreRead less
New Pillared Nanoporous Materials for Hydrogen Production by Photoinduced Water Splitting. The increasing concern over the limited supply of conventional energy sources has triggered world-wide efforts in developing alternative energy generation systems. Hydrogen produced from sunlight and water is considered as an ultimate solution for the hydrogen economy. This project addresses the material needs for more efficient and cleaner means of generating/utilising energy. The novel nanoporous materia ....New Pillared Nanoporous Materials for Hydrogen Production by Photoinduced Water Splitting. The increasing concern over the limited supply of conventional energy sources has triggered world-wide efforts in developing alternative energy generation systems. Hydrogen produced from sunlight and water is considered as an ultimate solution for the hydrogen economy. This project addresses the material needs for more efficient and cleaner means of generating/utilising energy. The novel nanoporous materials with increased photocatalytic water splitting efficiency will lead to new breakthrough in technologies for energy conversion materials. The preparation approach is also applicable to other functional layered materials, providing new opportunities for innovative nanotechnology to more efficient and greener energy industries.Read moreRead less
Nano/micro grinding mechanisms and technologies for brittle materials. The successful completion of the project will solve a long standing problem, that is, the ductile removal mechanism in the machining of brittle materials and create a strong knowledge base for the development of technology and characterization techniques for nano/micro mechanical machining of such materials. This will strengthen UWA's research capability and international competitiveness in the field of nano/micro manufacturi ....Nano/micro grinding mechanisms and technologies for brittle materials. The successful completion of the project will solve a long standing problem, that is, the ductile removal mechanism in the machining of brittle materials and create a strong knowledge base for the development of technology and characterization techniques for nano/micro mechanical machining of such materials. This will strengthen UWA's research capability and international competitiveness in the field of nano/micro manufacturing. The pragmatic grinding technology developed for fabricating micro aspherical mould inserts and lenses will directly benefit the optics/photonics, microelectronics and biomedical industries in Australia. This will help to position Australia in the forefront of emerging industries in the new millenniumRead moreRead less
Patchy colloidosomes at interfaces: correlation of particle surface heterogeneity, wettability, and chemical activity at the nanoscale. The surfaces of natural mineral particles are made up of spots with such different chemical and physical properties. The complexity makes it hard to predict their behaviour. This project will provide insights into how the 'patchy' nature of particle surfaces affects their behaviour in processes such as flotation separation and bio-fuel production.
Effect of Chemo-Mechanical Grinding on Surface Integrity of Single Crystal Silicon Substrates. Silicon substrates or wafers are extensively used in electronic and optic/photonic industries. A long-time standing problem in silicon wafer machining is the surface and subsurface damage induced by machining. This may significantly affect the mechanical, optical and electronic characteristics of wafer-based components. The issue becomes increasingly more critical as the application of silicon wafers i ....Effect of Chemo-Mechanical Grinding on Surface Integrity of Single Crystal Silicon Substrates. Silicon substrates or wafers are extensively used in electronic and optic/photonic industries. A long-time standing problem in silicon wafer machining is the surface and subsurface damage induced by machining. This may significantly affect the mechanical, optical and electronic characteristics of wafer-based components. The issue becomes increasingly more critical as the application of silicon wafers is extending further as structural components. The research outcomes will contribute an improved understanding of Chemo Mechanical Grinding process and help to develop innovative technologies for silicon industries.Read moreRead less
Sustainable processes for next-generation surface coatings and core-shell nanoparticles based on biomolecular templating. Nanotechnology promises new materials with broad impact, yet our ability to manufacture complex nanomaterials using sustainable processes is very limited. This project will advance our knowledge of nanomaterial manufacture using inspiration from how complex materials are made in nature. This project will deliver next-generation surface coatings that are incredibly thin but st ....Sustainable processes for next-generation surface coatings and core-shell nanoparticles based on biomolecular templating. Nanotechnology promises new materials with broad impact, yet our ability to manufacture complex nanomaterials using sustainable processes is very limited. This project will advance our knowledge of nanomaterial manufacture using inspiration from how complex materials are made in nature. This project will deliver next-generation surface coatings that are incredibly thin but strong, and specialised nanoparticles made using biocompatible processes. The knowledge and methods developed will benefit the biotechnology and nanotechnology sectors, as well as research in soft-matter science, quantum computing, photonics and healthcare. The value proposition for innovation in these fields will increasingly rely on new nanomanufacturing approaches.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668381
Funder
Australian Research Council
Funding Amount
$750,000.00
Summary
Foundational National Nanotechnology Infrastructure. Breakthough nanotechnologies based on quantum mechanics promise useful devices for absolutely secure transmission of information encoded in quantum states, ultra-rapid searching through genome databases for unique gene sequences, faster electronic and photonic devices, robust devices made from diamond and better processing of biomedical materials for diagnosis of illness. Fabrication and characterization of these devices provides training for ....Foundational National Nanotechnology Infrastructure. Breakthough nanotechnologies based on quantum mechanics promise useful devices for absolutely secure transmission of information encoded in quantum states, ultra-rapid searching through genome databases for unique gene sequences, faster electronic and photonic devices, robust devices made from diamond and better processing of biomedical materials for diagnosis of illness. Fabrication and characterization of these devices provides training for research students in state-of-the-art techniques with many uses. Deeper understanding of these quantum technologies will lead to better models for some of the most puzzling aspects of quantum mechanical systems that are the foundation of the physical processes of
our universe.Read moreRead less
Engineering Nanostructured Bio-inspired Products. New nanostructured products that draw on biology promise to revolutionise our lives and economy. Designer emulsions and self-assembling particles inspired by viruses are two such products that form the focus for this research programme. The constitutive behaviour of bio-molecular films that control emulsion performance will be characterised and linked to molecular properties and manufacturing conditions. A broad-based technology platform for t ....Engineering Nanostructured Bio-inspired Products. New nanostructured products that draw on biology promise to revolutionise our lives and economy. Designer emulsions and self-assembling particles inspired by viruses are two such products that form the focus for this research programme. The constitutive behaviour of bio-molecular films that control emulsion performance will be characterised and linked to molecular properties and manufacturing conditions. A broad-based technology platform for the in vitro creation of self-assembling biological nanoparticles will also be developed. Key outcomes will be valuable IPR and fundamental engineering science knowledge to ensure that the value chain for this class of products can deliver commercial outcomes.Read moreRead less
SYNTHESIS OF A NANO-STRUCTURED TITANIA SURFACE AND ITS APPLICATION IN PHOTOCATALYTIC OXIDATION FOR WATER TREATMENT. Australia is facing severe freshwater crisis. Although there is an increasing public awareness of saving and using water efficiently, re-using water/wastewater has been neglected. In Australia, 97% of city runoff and 86% of effluent water is unproductive. How to recycle and re-use them becomes an urgent issue. This project attempts to develop novel titania based photocatalysts to c ....SYNTHESIS OF A NANO-STRUCTURED TITANIA SURFACE AND ITS APPLICATION IN PHOTOCATALYTIC OXIDATION FOR WATER TREATMENT. Australia is facing severe freshwater crisis. Although there is an increasing public awareness of saving and using water efficiently, re-using water/wastewater has been neglected. In Australia, 97% of city runoff and 86% of effluent water is unproductive. How to recycle and re-use them becomes an urgent issue. This project attempts to develop novel titania based photocatalysts to convert organic contaminated water into reusable/potable freshwater. The project's innovation lies in the synthesis of highly reactive nano-structured titania surfaces in fixed form to solve downstream separation problem. Successful development of such photocatalysts will show significant environmental and socio-economic benefits to Australia.Read moreRead less