Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560981
Funder
Australian Research Council
Funding Amount
$160,940.00
Summary
Confronting the Challenges in Modern Spectroscopy of Polymers. Polymers and nanocomposites are increasingly being used in new, high value applications as diverse as medicine, structural engineering, optics and electronics. In order to control and understand polymer performance, a detailed knowledge of the chemical structure at all stages in their lifecycle is required - in the liquid, rubber and solid states and during degradation. This application seeks to establish a coordinated Polymer Spectr ....Confronting the Challenges in Modern Spectroscopy of Polymers. Polymers and nanocomposites are increasingly being used in new, high value applications as diverse as medicine, structural engineering, optics and electronics. In order to control and understand polymer performance, a detailed knowledge of the chemical structure at all stages in their lifecycle is required - in the liquid, rubber and solid states and during degradation. This application seeks to establish a coordinated Polymer Spectroscopy Network using new forms of infrared and NMR spectroscopy to probe samples (usually of an non-planar geometry) in a range of configurations. These will be used simultaneously with other techniques such as rheology or thermogravimetry, and will produce capabilities unique in Australia.Read moreRead less
High-Performance Polymer Composites for Electrical Discharging. This project aims to address the problem of electrostatic discharge by developing new industry-compatible processing techniques and taking advantage of the synergy between graphene and carbon nanotubes and fibres. Electrostatic discharge due to accumulation of static electricity is a significant problem for lightweight polymer composites used in hazard environments, such as pumps for underground mining, oil and gas storage and satel ....High-Performance Polymer Composites for Electrical Discharging. This project aims to address the problem of electrostatic discharge by developing new industry-compatible processing techniques and taking advantage of the synergy between graphene and carbon nanotubes and fibres. Electrostatic discharge due to accumulation of static electricity is a significant problem for lightweight polymer composites used in hazard environments, such as pumps for underground mining, oil and gas storage and satellites. The outcomes will potentially transform the current manufacturing practice of anti-static composites for industry applications including mining, energy, space and agriculture. Read moreRead less
ARC Centre for Functional Nanomaterials. The Centre will consist of leading researchers from four Australian universities, four CSIRO divisions, and two US research centres. The vision is to position Australia as a world leader in nanomaterials science and technology. The Centre will involve nanoscale science for building functional nanostructures of materials at the molecular level. It aims to develop new methods and techniques for self-assembling and characterizing nanomaterials with tailorabl ....ARC Centre for Functional Nanomaterials. The Centre will consist of leading researchers from four Australian universities, four CSIRO divisions, and two US research centres. The vision is to position Australia as a world leader in nanomaterials science and technology. The Centre will involve nanoscale science for building functional nanostructures of materials at the molecular level. It aims to develop new methods and techniques for self-assembling and characterizing nanomaterials with tailorable properties. The outcomes will include leading-edge science, the development of human capital, and intellectual property in new materials and products for applications in clean energy, environmental, and health care industries.Read moreRead less
Toughening thermosets by highly ordered nanostructures. This research will develop a new technology to manufacture a class of novel ordered nanostructured thermosets. The outcome of this project will enable many existing and new engineering applications in the transportation, construction and microelectronics industries in Australia.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883017
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Advanced processing and characterisation facility for functional polymers and polymer nanofibres. The pilot-scale processing and advanced characterisation facility will significantly strengthen R&D capacity for innovative research and development of functional polymers and polymer nanofibres, hence adding value to the $10-billion plus market for plastics, rubber and biopolymers manufactured and used in Australia. It will further strengthen Australia's position in polymer and nanofibre research a ....Advanced processing and characterisation facility for functional polymers and polymer nanofibres. The pilot-scale processing and advanced characterisation facility will significantly strengthen R&D capacity for innovative research and development of functional polymers and polymer nanofibres, hence adding value to the $10-billion plus market for plastics, rubber and biopolymers manufactured and used in Australia. It will further strengthen Australia's position in polymer and nanofibre research and innovation.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
Industrial Transformation Training Centres - Grant ID: IC210100023
Funder
Australian Research Council
Funding Amount
$4,943,949.00
Summary
ARC Training Centre in Bioplastics and Biocomposites. There is unprecedented growth in demand for bioderived and biodegradable materials. This Training Centre in Bioplastics and Biocomposites will capitalise on Australia’s abundance of the requisite natural bioresources to drive advances in technology for the development of bioplastic and biocomposite products for the new bioeconomy. The aim is to deliver leading edge research with a holistic focus on technical, social, policy and end of life so ....ARC Training Centre in Bioplastics and Biocomposites. There is unprecedented growth in demand for bioderived and biodegradable materials. This Training Centre in Bioplastics and Biocomposites will capitalise on Australia’s abundance of the requisite natural bioresources to drive advances in technology for the development of bioplastic and biocomposite products for the new bioeconomy. The aim is to deliver leading edge research with a holistic focus on technical, social, policy and end of life solutions, training a cohort of industry ready research specialists to underpin Australia’s transition to a globally significant bioplastics and biocomposites industry, while at the same time laying the foundations for accelerated growth in this space.Read moreRead less
Functionalised biopolymers - a new class of renewable nano-engineered materials. Licella is an Australian start-up company, focusing on developing uses for the renewable resource lignocellulosic biomass; a fibrous material sourced principally from waste, such as that generated by forestry and agricultural operations. It is possible to use such waste and process it to separate the biomass components. This project proposes to modify these biomass fractions with living radical polymerisation (LPR) ....Functionalised biopolymers - a new class of renewable nano-engineered materials. Licella is an Australian start-up company, focusing on developing uses for the renewable resource lignocellulosic biomass; a fibrous material sourced principally from waste, such as that generated by forestry and agricultural operations. It is possible to use such waste and process it to separate the biomass components. This project proposes to modify these biomass fractions with living radical polymerisation (LPR) polymers to impart functionalities, such as antimicrobial properties, high tensile strengths and/or in-built photodegrability. New, high-performance sustainable materials like these will be the back-bone of the polymer/plastics industry of the future, replacing common plastics, sourced from non-renewable petrochemicals, with benign, sustainable plastics.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100203
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
Accessing the third dimension in scanning electron microscopy for rapid, high resolution tomography of large samples. Understanding the three-dimensional structure of materials is essential for modern research. This facility will allow rapid three-dimensional imaging of materials within a scanning electron microscope, including sustainable polymers, tissues from plants and nanocomposites. This will enable high-quality research in science, engineering and medicine.