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Fluidised bed nanoparticle reactors for gas-solid catalytic reactions. This is a "frontier technologies" (nanotechnology) project and promises to open up new opportunities for exciting development in molecular engineering. Catalytic gas-solid reactions are among the most important reactions in chemical industry and energy industry. The novel fluidised bed nanoparticle catalytic reactor is expected to have many important advantages over the conventional porous supported catalyst system. These rea ....Fluidised bed nanoparticle reactors for gas-solid catalytic reactions. This is a "frontier technologies" (nanotechnology) project and promises to open up new opportunities for exciting development in molecular engineering. Catalytic gas-solid reactions are among the most important reactions in chemical industry and energy industry. The novel fluidised bed nanoparticle catalytic reactor is expected to have many important advantages over the conventional porous supported catalyst system. These reactors promise to minimise the waste product generation from chemical and energy industries and so offer great benefit for the environment. Young researchers involved in the project will be equipped with knowledge at the forefront of nanotechnology, enabling them to contribute to Australia's new, high technology future.Read moreRead less
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
Energy Dissipation and Nanoscale Processes at Moving Contact Lines. The dynamic process of liquids wetting and dewetting, as moving contact lines pass over solid surfaces is central to many industrial operations and natural phenomena. Contact line motion plays a key role in micro and nanofluidics, the foundation of an emergent technology called process intensification, where large industrial processes can be reduced to Lilliputian in size. Substantial energy reduction and other benefits are exp ....Energy Dissipation and Nanoscale Processes at Moving Contact Lines. The dynamic process of liquids wetting and dewetting, as moving contact lines pass over solid surfaces is central to many industrial operations and natural phenomena. Contact line motion plays a key role in micro and nanofluidics, the foundation of an emergent technology called process intensification, where large industrial processes can be reduced to Lilliputian in size. Substantial energy reduction and other benefits are expected from this project, including the transformation of coarse particle flotation. Young PhD scientists and engineers will be educated in a rich research environment, with strong international research collaboration in areas of national priority.Read moreRead less
An integrated study of dynamic interactions in soft matter systems. Established Australian pharmaceutical, dairy and food processing industries and growing high-value biotechnology and nanotechnology rely on the processing and control of a generic class of materials called Soft Matter. Cost driven demands for high throughput and increasing water and energy conservation requirements will be met by advances in the underpinning engineering science pursued in this project. In addition to increasing ....An integrated study of dynamic interactions in soft matter systems. Established Australian pharmaceutical, dairy and food processing industries and growing high-value biotechnology and nanotechnology rely on the processing and control of a generic class of materials called Soft Matter. Cost driven demands for high throughput and increasing water and energy conservation requirements will be met by advances in the underpinning engineering science pursued in this project. In addition to increasing the international competitiveness of Australian industries in high value products, the research outcomes also add to the knowledge capacity of the nation for future technological developments.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989068
Funder
Australian Research Council
Funding Amount
$637,120.00
Summary
Equipment for Metastable Induced Electron Spectroscopy: surface analysis with excellent surface sensitivity. One of the major research strengths of Australia is surface science as it is important for both fundamental and industry related research. In many cases it is crucial to investigate the outermost layer of a material or mineral. Metastable Induced Electron Spectroscopy is an ideal technique as it is sensitive exclusively to the outermost layer of a broad range of samples. The information g ....Equipment for Metastable Induced Electron Spectroscopy: surface analysis with excellent surface sensitivity. One of the major research strengths of Australia is surface science as it is important for both fundamental and industry related research. In many cases it is crucial to investigate the outermost layer of a material or mineral. Metastable Induced Electron Spectroscopy is an ideal technique as it is sensitive exclusively to the outermost layer of a broad range of samples. The information gained is not accessible by any other method. The proposed equipment will be the first of this type in Australia and will complement existing surface science facilities. The project will enhance Australia's position in surface science internationally and a large number of projects will benefit from access to the equipment.Read moreRead less
Photodesorption Phenomena and Photoreactive Nanosorbent Materials for Water and Wastewater Purification. Introducing more efficient production of drinking water and wastewater treatment methods for reuse is important to address increasing water scarcity in Australia. The proposed project will develop a water purification technology to remove pollutants using a recently discovered process. This process offers simple and affordable operation that is clean, robust and requires minimal attention. Th ....Photodesorption Phenomena and Photoreactive Nanosorbent Materials for Water and Wastewater Purification. Introducing more efficient production of drinking water and wastewater treatment methods for reuse is important to address increasing water scarcity in Australia. The proposed project will develop a water purification technology to remove pollutants using a recently discovered process. This process offers simple and affordable operation that is clean, robust and requires minimal attention. The technology is particularly suitable for small-scale applications in rural and remote areas, and has significant export potential. The project will strengthen established links between Australian and Korean research centres through the production of improved nanomaterials, and the development of the novel water purification technologyRead moreRead less
Interactions between nanoparticles and bacteria. This project aims to understand how nanoparticles interfere with bacterial metabolism, and how these interactions lead to cell death, lysis and dispersal from biofilms. Intensive use of nanomaterials results in their continuously releases into the environment. While various nanoparticles have inhibitory and even toxic effects on microorganisms in ecosystems, the underlying mechanisms are not understood. This project will investigate model organism ....Interactions between nanoparticles and bacteria. This project aims to understand how nanoparticles interfere with bacterial metabolism, and how these interactions lead to cell death, lysis and dispersal from biofilms. Intensive use of nanomaterials results in their continuously releases into the environment. While various nanoparticles have inhibitory and even toxic effects on microorganisms in ecosystems, the underlying mechanisms are not understood. This project will investigate model organisms’ responses to nanoparticles at the cellular, enzymatic and gene expression levels. The findings are expected to help assess the immediate and long-term effect of nanoparticles on ecosystem health, for improved environmental management.Read moreRead less
Optimizing the UV Protection of Textiles with Nano Zinc Oxide. Colour fading, due to poor fastness to light - especially ultraviolet light - is a critical problem that continues to plague the textile industry, especially for products such as flags, awnings and car upholstery that are used in outside applications and therefore exposed directly to sunlight. This research, in collaboration with Micronisers Pty Ltd, will develop improved nano zinc oxide formulations that will significantly reduce th ....Optimizing the UV Protection of Textiles with Nano Zinc Oxide. Colour fading, due to poor fastness to light - especially ultraviolet light - is a critical problem that continues to plague the textile industry, especially for products such as flags, awnings and car upholstery that are used in outside applications and therefore exposed directly to sunlight. This research, in collaboration with Micronisers Pty Ltd, will develop improved nano zinc oxide formulations that will significantly reduce the colour fading problems, and hence add value to the fledgling nano-tech (as well as traditional textile) industries in Australia. It could enable local production of a specialised textile finishing agent for export to major textile producers in South East Asia.Read moreRead less
Engineered and functionalized nanocarbons for clean energy and water. This project aims to develop a novel material platform based on metal-free graphitic carbon nitride and its functionalised composites in solar energy utilisation for water treatment, energy conversion to hydrogen, solar cell, and electrochemical battery in energy storage. The project aims to address the scientific challenges in rational nanomaterial synthesis, functionalisation and practical applications. The research outcomes ....Engineered and functionalized nanocarbons for clean energy and water. This project aims to develop a novel material platform based on metal-free graphitic carbon nitride and its functionalised composites in solar energy utilisation for water treatment, energy conversion to hydrogen, solar cell, and electrochemical battery in energy storage. The project aims to address the scientific challenges in rational nanomaterial synthesis, functionalisation and practical applications. The research outcomes are expected to provide a scientific basis for development of cutting-edge nanotechnologies for sustainable energy transformation and wastewater treatment, leading to significant benefits in Australian energy industries and environment.Read moreRead less
Porous Silica-Based Nanocapsules for Targeted and Controlled Release of Biocides. The project will lead to significant advances in nanotechnology and agrichemical biocide applications. A highly efficient insect control technology will be developed, that will be cost-effective with the ability for targeted control and release of biocides. The encapsulation technology will reduce the total usage and costs of biocides thus benefit the environment in terms of reduced environment pollution and enhanc ....Porous Silica-Based Nanocapsules for Targeted and Controlled Release of Biocides. The project will lead to significant advances in nanotechnology and agrichemical biocide applications. A highly efficient insect control technology will be developed, that will be cost-effective with the ability for targeted control and release of biocides. The encapsulation technology will reduce the total usage and costs of biocides thus benefit the environment in terms of reduced environment pollution and enhanced ecological safety.Read moreRead less