THEORETICAL AND EXPERIMENTAL STUDIES OF BLOCK COPOLYMER MELTS AS NANO-MATERIALS. We shall theoretically study and predict the possible morphologies of a wide range of block copolymer architectures with a combination of simulations and accurate numerical theories. These block copolymer melts are of great technological importance because they can self-assemble into morphological patterns which are periodic on a nano-scale. Hence they are now being intensively investigated for uses in applications ....THEORETICAL AND EXPERIMENTAL STUDIES OF BLOCK COPOLYMER MELTS AS NANO-MATERIALS. We shall theoretically study and predict the possible morphologies of a wide range of block copolymer architectures with a combination of simulations and accurate numerical theories. These block copolymer melts are of great technological importance because they can self-assemble into morphological patterns which are periodic on a nano-scale. Hence they are now being intensively investigated for uses in applications as diverse as lithographic templates for electronic and optical devices, nano-porous membranes and photonic band gap materials. We shall verify our theoretical predictions by carrying out experiments on the various molecular architectures that we have studied theoretically.Read moreRead less
One Step Pre-forms for Microstructured Polymer Optical Fibre. The pre-form rods this project yields will enable polymer optical fibre technology, just as suitable glass pre-forms enabled today's optical fibre. One-step casting techniques will yield PMMA rods with arrays of internal channels which can be empty, or filled with different clear polymer. Polymer microstructured optical fibre (PMOF) suitable for high bandwidth communications is then produced by drawing. It is urgently needed for local ....One Step Pre-forms for Microstructured Polymer Optical Fibre. The pre-form rods this project yields will enable polymer optical fibre technology, just as suitable glass pre-forms enabled today's optical fibre. One-step casting techniques will yield PMMA rods with arrays of internal channels which can be empty, or filled with different clear polymer. Polymer microstructured optical fibre (PMOF) suitable for high bandwidth communications is then produced by drawing. It is urgently needed for local communication networks in cars and buildings. Solid PMOF channels are new to this project, and should make PMOF easier to deploy. Nanoscale mapping of light transport modes and polymer defects will help validate channel designs.Read moreRead less
Development of inorganic-conducting polymer composites and ionic liquid-based electrolytes for rechargeable lithium batteries. The project will lead to development of safe lithium batteries for electric vehicles and hybrid electric vehicles to contribute to the national priority goal of reducing and capturing emissions in transport to improve our environment. Small, flexible batteries for new implantable medical devices will also be developed to treat millions of people suffering from different ....Development of inorganic-conducting polymer composites and ionic liquid-based electrolytes for rechargeable lithium batteries. The project will lead to development of safe lithium batteries for electric vehicles and hybrid electric vehicles to contribute to the national priority goal of reducing and capturing emissions in transport to improve our environment. Small, flexible batteries for new implantable medical devices will also be developed to treat millions of people suffering from different diseases. The development of new scientific knowledge related to this project will place Australia at the forefront of an emerging domain of research. The project will take the incentive in establishing a leading national position in development of new energy storage technology.
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Structure-Property Relationships of Polymers with Controlled Architecture. Mechanical properties of a polymer (e.g., how elastic it is and how it dissipates energy when compressed) govern how well it performs as an adhesive, or its behaviour when melted and shaped into a consumer item. This project aims to relate molecular architecture to mechanical properties, using new techniques which permit the creation of polymers wherein each architectural characteristic is separately controlled. This has ....Structure-Property Relationships of Polymers with Controlled Architecture. Mechanical properties of a polymer (e.g., how elastic it is and how it dissipates energy when compressed) govern how well it performs as an adhesive, or its behaviour when melted and shaped into a consumer item. This project aims to relate molecular architecture to mechanical properties, using new techniques which permit the creation of polymers wherein each architectural characteristic is separately controlled. This has the potential to develop fundamental understanding for structure-property relations for the type of branched polymers that are in common use in industry and for which adequate models do not currently exist.Read moreRead less
An investigation of the mechanism of lacquer adhesion failure on electrolytic tinplate. "Tin" cans used for food packaging are actually made from tin-plated steel and, in most cases, the metal is coated with a lacquer. This lacquer is required to protect the can from corrosion and the contents from taint. The incidence of adhesion failure between the metal and the lacquer has increased recently for unknown reasons, causing considerable economic loss. This project will investigate the mechanisms ....An investigation of the mechanism of lacquer adhesion failure on electrolytic tinplate. "Tin" cans used for food packaging are actually made from tin-plated steel and, in most cases, the metal is coated with a lacquer. This lacquer is required to protect the can from corrosion and the contents from taint. The incidence of adhesion failure between the metal and the lacquer has increased recently for unknown reasons, causing considerable economic loss. This project will investigate the mechanisms of adhesion failure and improve our fundamental understanding of the problem. The results will be used to enable the selection of process conditions and lacquers that are more robust and reduce the incidence of adhesion failure.Read moreRead less
Functionalised nanostructured polythiophenes: novel platforms for bionics. The nanostructured organic polymer materials targeted for production in this project will bring unique capabilities to the field of muscle regeneration. A multi-modal stimulation platform is expected to bring significant improvements in muscle cell growth. This will have profound effects on the quality of life for those suffering from neuromuscular disorders or other traumas that require muscle regeneration. This project ....Functionalised nanostructured polythiophenes: novel platforms for bionics. The nanostructured organic polymer materials targeted for production in this project will bring unique capabilities to the field of muscle regeneration. A multi-modal stimulation platform is expected to bring significant improvements in muscle cell growth. This will have profound effects on the quality of life for those suffering from neuromuscular disorders or other traumas that require muscle regeneration. This project will demonstrate the capabilities of these nanostructures in-vitro.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237400
Funder
Australian Research Council
Funding Amount
$124,000.00
Summary
Integrated Biomechanics Research Laboratory. This application seeks funding to establish a collaborative biomechanics research laboratory by purchasing a suite of integrated biomechanical equipment to enable three-dimensional bilateral analysis of human physical performance during activities of daily living, work, and leisure. This unique facility will remedy a current deficiency in biomechanical research infrastructure, thereby significantly enhancing research capability and productivity at th ....Integrated Biomechanics Research Laboratory. This application seeks funding to establish a collaborative biomechanics research laboratory by purchasing a suite of integrated biomechanical equipment to enable three-dimensional bilateral analysis of human physical performance during activities of daily living, work, and leisure. This unique facility will remedy a current deficiency in biomechanical research infrastructure, thereby significantly enhancing research capability and productivity at the two collaborating institutions. Establishing this facility is critical given the absence of such a comprehensive resource for use by regional universities and the increasing emphasis on injury prevention and human safety in all spheres of life.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0211003
Funder
Australian Research Council
Funding Amount
$125,000.00
Summary
A Facility for Probing Nanostructure in Polymers. The properties of a polymer are only partly determined by its molecular structure. It is now clear that the organization of molecular structure and phase morphology on a nano-scale has an equally important role in determining material behaviour. Increasingly this can be manipulated by judicious choice of formulation and processing variables. The polymer Nano-Structure Facility will bring together Australia's principal polymer experts in this a ....A Facility for Probing Nanostructure in Polymers. The properties of a polymer are only partly determined by its molecular structure. It is now clear that the organization of molecular structure and phase morphology on a nano-scale has an equally important role in determining material behaviour. Increasingly this can be manipulated by judicious choice of formulation and processing variables. The polymer Nano-Structure Facility will bring together Australia's principal polymer experts in this area of structure-property relations and provide them with shared access to the appropriate, modern analytical tools required to probe the nano-structure of such new materials with enhanced properties.Read moreRead less
Microstructured polymer interconnects for photonic devices. Efficient interconnection of photonic components is the most critical research problem facing the photonics industry in its efforts for integration. In this project, interconnects for photonic systems will be developed, utilising a recently developed new class of fibres - microstructured optical fibres, which have been called 'the next generation' of optical fibres because of their ability to produce a variety of tailorisable optical ef ....Microstructured polymer interconnects for photonic devices. Efficient interconnection of photonic components is the most critical research problem facing the photonics industry in its efforts for integration. In this project, interconnects for photonic systems will be developed, utilising a recently developed new class of fibres - microstructured optical fibres, which have been called 'the next generation' of optical fibres because of their ability to produce a variety of tailorisable optical effects. Specially designed and modified microstructured fibres will be developed to achieve efficient coupling from fibre to planar waveguide circuits, and to a range of photonic band gap devices that are currently being developed by the industry partner.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347258
Funder
Australian Research Council
Funding Amount
$170,000.00
Summary
Polymer Analysis Facility. The aim of this application is to establish a facility for polymer analysis. The infra-red spectrometer will be used primarily for analysis of polymerisation reactions whilst the thermal analysis equipment is essential for the characterisation of polymers and thin polymer coatings. The facility will contribute an essential analysis capability for three strong research groups who work in different aspects of polymer science. The main outcomes will improved productivity ....Polymer Analysis Facility. The aim of this application is to establish a facility for polymer analysis. The infra-red spectrometer will be used primarily for analysis of polymerisation reactions whilst the thermal analysis equipment is essential for the characterisation of polymers and thin polymer coatings. The facility will contribute an essential analysis capability for three strong research groups who work in different aspects of polymer science. The main outcomes will improved productivity within the current projects together with new collaborations, particularly between the Steel Institute (ISPP) at Wollongong and the Centre of Advanced Molecular Design (CAMD) at UNSW.Read moreRead less