Tailoring the microwave dielectric properties of promising electroceramics for use in wireless telecommunication components and devices. This project aims to develop and tailor the microwave dielectric properties of promising electroceramic materials specifically targeting next generation wireless telecommunications applications. The partnership between the ANU and the Australian company Microwave and Materials Designs has the potential to enable new microwave electroceramic materials to be disc ....Tailoring the microwave dielectric properties of promising electroceramics for use in wireless telecommunication components and devices. This project aims to develop and tailor the microwave dielectric properties of promising electroceramic materials specifically targeting next generation wireless telecommunications applications. The partnership between the ANU and the Australian company Microwave and Materials Designs has the potential to enable new microwave electroceramic materials to be discovered and then incorporated into new microwave components and/or devices developed in response to the requirements of the international wireless telecommunications market. The requested PhD student will gain experience in both the industrial and academic worlds and the skills needed to be part of Australia's high-tech workforce. Read moreRead less
Improved Nanoscale and Molecular Models for Nanostructured Carbons, and their Applications in Simulation of Confined Fluids. This project has a multitude of benefits for Australia, a key one of which is the promotion of cross-disciplinary interaction and collaboration to conduct leading edge research in a technologically important area. In addition the project will utilize two PhD students who will be trained in research, and gain a broad range of skills in this multifaceted project involving t ....Improved Nanoscale and Molecular Models for Nanostructured Carbons, and their Applications in Simulation of Confined Fluids. This project has a multitude of benefits for Australia, a key one of which is the promotion of cross-disciplinary interaction and collaboration to conduct leading edge research in a technologically important area. In addition the project will utilize two PhD students who will be trained in research, and gain a broad range of skills in this multifaceted project involving theory, simulation and experiment. The research, grounded in molecular fundamentals, will also lead to the development of advanced tools for adsorption process modelling, useful in process design and scale-up, and contribute to Goal 1 of National Priority Area 3: Frontier Technologies for Building and Transforming Australian Industries.Read moreRead less
Theoretical Study of Functionalized Boron Nitride Nanotubes and Their Application as Gas Sensor. The gas sensors to be studied in this project can be deployed for a variety of applications, such as environmental monitoring, sensing in chemical processing plant, and gas detection for counter-terrorism, this project thus can significantly contribute to environmental protection, national security, and agriculture and pharmaceutical industries in Australia. Such mechanism understanding will also be ....Theoretical Study of Functionalized Boron Nitride Nanotubes and Their Application as Gas Sensor. The gas sensors to be studied in this project can be deployed for a variety of applications, such as environmental monitoring, sensing in chemical processing plant, and gas detection for counter-terrorism, this project thus can significantly contribute to environmental protection, national security, and agriculture and pharmaceutical industries in Australia. Such mechanism understanding will also be very useful for exploring the applications of BNNTs in nano-optical-magnetic devices, energy storage and biomaterials This project will also be important for keeping Australia in the frontier area in the research areas of nanotubes.Read moreRead less
Frustrated magnets: a new platform for multiferroic materials. Ferroelectric materials with simultaneous ferroelectricity and ferromagnetism are one of the most important new emerging fields in the materials science and condensed matter physics communities. Novel magneto-electronic devices based on new multiferroic materials will open up a huge market for these devices, which are expected to have a huge impact on modern science and daily life. The purpose of this project is to make Australia one ....Frustrated magnets: a new platform for multiferroic materials. Ferroelectric materials with simultaneous ferroelectricity and ferromagnetism are one of the most important new emerging fields in the materials science and condensed matter physics communities. Novel magneto-electronic devices based on new multiferroic materials will open up a huge market for these devices, which are expected to have a huge impact on modern science and daily life. The purpose of this project is to make Australia one of the leading countries in this field and to work with colleagues inside Australia and around the world to move this field forward for mutual benefit. Read moreRead less
Manipulation of Spin by Electric Field. Spin manipulation is one of the most challenging topics in the new emerging spintronics technology. This project will develop a novel solution for the problem of spin manipulation and falls into the National Research Priority: Frontier Technologies for Building and Transforming Australian Industries. This project will provide training for postgraduate students and develop patentable science and technologies. The successful accomplishment of this project wi ....Manipulation of Spin by Electric Field. Spin manipulation is one of the most challenging topics in the new emerging spintronics technology. This project will develop a novel solution for the problem of spin manipulation and falls into the National Research Priority: Frontier Technologies for Building and Transforming Australian Industries. This project will provide training for postgraduate students and develop patentable science and technologies. The successful accomplishment of this project will consolidate the knowledge and technology background that is needed for Australia to develop the next generation of spin-base electronics. In the long term, spin-based electronics with high efficiency and very low energy consumption will benefit the Australian manufacturing industry.Read moreRead less
Development of novel ferroelectric magnetic materials for multi-functional applications. Ferroelectric magnets having simultaneous ferroeletricity and ferromagnetism is an area of emerging scientific interest. This project is to develop novel ferroelectric magnetic materials for multifunctional applications and falls into National Research Priority, Frontier Technologies for Building and Transforming Australian Industries. This project will provide trainings for postgraduate students and develop ....Development of novel ferroelectric magnetic materials for multi-functional applications. Ferroelectric magnets having simultaneous ferroeletricity and ferromagnetism is an area of emerging scientific interest. This project is to develop novel ferroelectric magnetic materials for multifunctional applications and falls into National Research Priority, Frontier Technologies for Building and Transforming Australian Industries. This project will provide trainings for postgraduate students and develop patentable science and technologies. The scope for use of the novel multifunctional materials will be enormous with great markets in the fields of magnetoelectronics, magnetic electromechanical industrial devices. It will benefit Australian manufacturing industry in the long term. Read moreRead less
Crystalline Mesoporous Metal Oxides for Solid Oxide Fuel Cell Electrodes. Our crystalline mesoporous electrodes will help realise the full potentials of solid oxide fuel cells. Such advanced fuel cell technology will drastically increase the power generation efficiency, and reduce CO2 emissions from present power plants, thereby transforming Australian energy industry and improving our environment. The design and development of novel crystalline mesoporous materials that find widespread industri ....Crystalline Mesoporous Metal Oxides for Solid Oxide Fuel Cell Electrodes. Our crystalline mesoporous electrodes will help realise the full potentials of solid oxide fuel cells. Such advanced fuel cell technology will drastically increase the power generation efficiency, and reduce CO2 emissions from present power plants, thereby transforming Australian energy industry and improving our environment. The design and development of novel crystalline mesoporous materials that find widespread industrial applications will advance Australia's knowledge and skill base, and help Australia's high-tech industries to stay competitive, including the development of new high-tech industries in Australia.Read moreRead less
Economic Operability Assessment of Leaching Process at Kwinana Nickel Refinery. Process operability is concerned with systematic analysis and improvement of process performance in the face of variable operating conditions. This project will develop a rigorous methodology for analysis of process operability with respect to short-term and transient disturbances. The proposed technique will be applied to the Kwinana Nickel Refinery Leach section, in order to reduce the plant variability and increas ....Economic Operability Assessment of Leaching Process at Kwinana Nickel Refinery. Process operability is concerned with systematic analysis and improvement of process performance in the face of variable operating conditions. This project will develop a rigorous methodology for analysis of process operability with respect to short-term and transient disturbances. The proposed technique will be applied to the Kwinana Nickel Refinery Leach section, in order to reduce the plant variability and increase nickel throughput and plant availability. This can be considered as significant move by a process industry to embrace advanced theoretical developments and will act as a benchmark to promote future links between Australian industry and academia.Read moreRead less
Design and synthesis of novel lanthanoid complexes for the fabrication of light emitting devices. There is a huge and still growing economy centred around the design and fabrication of low-cost Light Emitting Devices (LEDs), as demonstrated by the excess of US$1.3 billion invested in this field between 2000 and 2007. Nations focused on the production of new and more efficient materials will be at the forefront of these emerging technologies. The major thrust of this proposal, the design and prep ....Design and synthesis of novel lanthanoid complexes for the fabrication of light emitting devices. There is a huge and still growing economy centred around the design and fabrication of low-cost Light Emitting Devices (LEDs), as demonstrated by the excess of US$1.3 billion invested in this field between 2000 and 2007. Nations focused on the production of new and more efficient materials will be at the forefront of these emerging technologies. The major thrust of this proposal, the design and preparation of luminescent rare earths complexes, and their use for the fabrication of LEDS, represent a good opportunity for Australia to access this growing market. Read moreRead less
Switchable interfaces. The discovery project will challenge some of the most demanding issues regarding adhesion and molecular separation: - Surfaces that can release/prevent bio-film formation can provide novel solutions for corrosion-protection, implants, anti-fouling in medical devices as well as in industrial piping and reactors. - Materials for separation on the molecular level, which can bring new possibilities for fast and selective processes to the pharmaceutical industry. The novel comb ....Switchable interfaces. The discovery project will challenge some of the most demanding issues regarding adhesion and molecular separation: - Surfaces that can release/prevent bio-film formation can provide novel solutions for corrosion-protection, implants, anti-fouling in medical devices as well as in industrial piping and reactors. - Materials for separation on the molecular level, which can bring new possibilities for fast and selective processes to the pharmaceutical industry. The novel combination of the two materials research fields - plasma-polymerisation and electroactive materials- will lead to an international capability at the forefront of separation and adhesion research.Read moreRead less