Formation and stability of polymerically stabilized colloids. This project will bring economic, medical and environmental benefits, with improved product performance and manufacturing processes for everyday industrial items relevant to a large industrial sector with significant employment in Australia: inks and paints (for example, surface coatings that can be applied more rapidly without clogging the jets); better means of preventing the fouling of industrial membranes; and improved materials f ....Formation and stability of polymerically stabilized colloids. This project will bring economic, medical and environmental benefits, with improved product performance and manufacturing processes for everyday industrial items relevant to a large industrial sector with significant employment in Australia: inks and paints (for example, surface coatings that can be applied more rapidly without clogging the jets); better means of preventing the fouling of industrial membranes; and improved materials for biomedical applications, with more desirable interactions between living cells and body fluids. These advances will also speed the replacement of solvent-based lacquer paints - detrimental to both environment and user - with water-based products of high quality.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775551
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
Integrated Advanced X-ray Diffraction Facility. The new equipment will provide a unique facility for single crystal, powder and thin film structure elucidation using X-ray diffraction techniques. No other techniques have the capabilities in structure determination of materials at an atomic level which are necessary for delivering applications in nano-technology, health care products, amongst many fields, for the benefit for the community at large. The facility will foster a more innovative resea ....Integrated Advanced X-ray Diffraction Facility. The new equipment will provide a unique facility for single crystal, powder and thin film structure elucidation using X-ray diffraction techniques. No other techniques have the capabilities in structure determination of materials at an atomic level which are necessary for delivering applications in nano-technology, health care products, amongst many fields, for the benefit for the community at large. The facility will foster a more innovative research culture and provide excellent research training at the highest international level, and will provide a platform to maximise access to the new Opal Research Reactor and Australian Synchrotron.Read moreRead less
Meshes of Oxide Nanofibres for Next-Generation Ceramic Membranes. Our next-generation ceramic membranes will increase the speed and efficiency of present industrial separations as well as expanding into a variety of new separations, thereby transforming many Australian industries. Exports of this new technology also will generate significant national benefits. Application of these new membranes to removing pollutants and pathogens from water and/or air will bring significant community benefits g ....Meshes of Oxide Nanofibres for Next-Generation Ceramic Membranes. Our next-generation ceramic membranes will increase the speed and efficiency of present industrial separations as well as expanding into a variety of new separations, thereby transforming many Australian industries. Exports of this new technology also will generate significant national benefits. Application of these new membranes to removing pollutants and pathogens from water and/or air will bring significant community benefits globally, addressing such crucial issues as low-cost provision of clean drinking water. Additionally, understanding the cutting-edge science associated with the mechanisms of nanofibre growth and the assembly of nanofibre meshes is highly valuable, making an important contribution to Australia's knowledge-economy.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346968
Funder
Australian Research Council
Funding Amount
$377,000.00
Summary
Victorian Surface Science Partnership. The aim of this proposal is to build a cooperative grouping of surface science resources for Victoria to facilitate world-class research on the nature and behaviour of chemical, semiconductor, environmental, biological and industrial materials. The new Facility will provide state-of-the-art infrastructure necessary for the participating groups to maintain their international reputations, will build stronger research collaborations between the partners, will ....Victorian Surface Science Partnership. The aim of this proposal is to build a cooperative grouping of surface science resources for Victoria to facilitate world-class research on the nature and behaviour of chemical, semiconductor, environmental, biological and industrial materials. The new Facility will provide state-of-the-art infrastructure necessary for the participating groups to maintain their international reputations, will build stronger research collaborations between the partners, will attract researchers from overseas and will be used by a range of commercial clients. The theme of "surface characterisation" draws together a great diversity of projects being undertaken by the collaborating group comprising around 30 research groups and commercial entities.Read moreRead less
Structure of Water-Based Polymer and Surfactant Lubricant Layers. The aim of this work is to understand the structures formed by mixtures of polymers and surfactant (detergent or soap) on solid surfaces, and especially how this structure affects the performance of the mixed layer as a lubricant. We will investigate a variety of polymer and surfactant molecules and their mixtures, determining the structure directly by atomic force microscopy imaging and measuring the sliding and adhesive forces ....Structure of Water-Based Polymer and Surfactant Lubricant Layers. The aim of this work is to understand the structures formed by mixtures of polymers and surfactant (detergent or soap) on solid surfaces, and especially how this structure affects the performance of the mixed layer as a lubricant. We will investigate a variety of polymer and surfactant molecules and their mixtures, determining the structure directly by atomic force microscopy imaging and measuring the sliding and adhesive forces using the surface force appararus. This will enable us to better understand water-based lubricants and design new lubricating layers.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560975
Funder
Australian Research Council
Funding Amount
$406,385.00
Summary
Advanced Surface Imaging and Spectroscopy Facility. The aim of this proposal is to build a cooperative grouping of materials and surface science resources to facilitate world-class research on the nature and behaviour of chemical, semiconductor, environmental, biological and industrial materials. The new Facility will provide state-of-the-art infrastructure necessary for the participating groups to maintain their international reputations, will build stronger research collaborations between the ....Advanced Surface Imaging and Spectroscopy Facility. The aim of this proposal is to build a cooperative grouping of materials and surface science resources to facilitate world-class research on the nature and behaviour of chemical, semiconductor, environmental, biological and industrial materials. The new Facility will provide state-of-the-art infrastructure necessary for the participating groups to maintain their international reputations, will build stronger research collaborations between the partners, will attract researchers from overseas and will be used by a range of commercial clients. The theme of "surface characterisation" draws together a great diversity of projects being undertaken by the collaborating group comprising around 30 research groups and commercial entities.Read moreRead less
Artificial Proteins for the Control of Colloid and Surface Properties. A large amount of Australia's wealth arises from mining and the processing of small (colloidal) particles. This project will develop new coatings for particles, which will allow better control of the properties of particle suspensions. Control of surface properties is also important in the preparation of ceramics and in the preparation of implants and biosensors. The development of new coatings will also offer opportunitie ....Artificial Proteins for the Control of Colloid and Surface Properties. A large amount of Australia's wealth arises from mining and the processing of small (colloidal) particles. This project will develop new coatings for particles, which will allow better control of the properties of particle suspensions. Control of surface properties is also important in the preparation of ceramics and in the preparation of implants and biosensors. The development of new coatings will also offer opportunities for improved performance in these areas.
Many existing coating technologies rely on procedures using organic solvents, which are hazardous to human health and the environment. The proposed research will develop coatings that are made and used in solutions of water only, thereby minimizing pollution production.
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