Development of high-performance Si/Ge superlattice thermoelectric materials with optimization of lattice periodic thickness. Thermoelectric generation systems convert waste heat into electrical energy irrespective of source size and without the use of moving parts or the production of environmentally deleterious wastes. This would conserve fuel and energy, and reduce environmental emissions. Success of this program will facilitate the development of thermoelectric materials, which has enormous i ....Development of high-performance Si/Ge superlattice thermoelectric materials with optimization of lattice periodic thickness. Thermoelectric generation systems convert waste heat into electrical energy irrespective of source size and without the use of moving parts or the production of environmentally deleterious wastes. This would conserve fuel and energy, and reduce environmental emissions. Success of this program will facilitate the development of thermoelectric materials, which has enormous international market, in Australia. It will open up an avenue for searching out potential thermoelectric materials for practical applications. This program will also provide an education platform to intensively train high quality postgraduates at the international level.Read moreRead less
Enhancement and elucidation of flux pinning in doped Bi-Sr-Ca-Cu-O high temperature superconducting single crystals. The proposed project aims to study the effects of elevated doping on the intrinsic electromagnetic properties of Bi-Sr-Ca-Cu-O high temperature superconducting (HTS) single crystals grown by two-dimensional and spiral-growth mechanisms with a particular focus on structure, conductivity and thermal neutron irradiation. Studies of the relationship between microstructures, anisotrop ....Enhancement and elucidation of flux pinning in doped Bi-Sr-Ca-Cu-O high temperature superconducting single crystals. The proposed project aims to study the effects of elevated doping on the intrinsic electromagnetic properties of Bi-Sr-Ca-Cu-O high temperature superconducting (HTS) single crystals grown by two-dimensional and spiral-growth mechanisms with a particular focus on structure, conductivity and thermal neutron irradiation. Studies of the relationship between microstructures, anisotropy and flux pinning will lead to a better understanding of the pinning behaviour of Bi-based HTSC. The outcome will be better methods for introducing suitable pinning centres into Bi-based high temperature superconductors.Read moreRead less
Materials science and superconductivity in the new Fe-based high temperature superconductors. Novel superconducting materials with high superconducting transition temperature and upper critical field are one of the most important research fields in the community of materials science and condensed matter physics. Any significant breakthrough in Fe-based superconductors will result in exotic physics and possible novel superconducting electronic devices, and will have the potential for ground-break ....Materials science and superconductivity in the new Fe-based high temperature superconductors. Novel superconducting materials with high superconducting transition temperature and upper critical field are one of the most important research fields in the community of materials science and condensed matter physics. Any significant breakthrough in Fe-based superconductors will result in exotic physics and possible novel superconducting electronic devices, and will have the potential for ground-breaking research. The purpose of this project is to bring Australia to the forefront of this field and to work with world leading researchers within Australia and worldwide to make advancements in this field.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
Ferroelectric - ferromagnetic tunnel junctions. Ferroelectric and ferromagnetic materials have attracted significant attention and exhibited potential in many applications such as storage memories, solid-state light sources and a range of smart chemical and biological sensors. This proposal seeks to investigate the behaviour of these materials in ultra-thin film form, where imposed geometrical constraints produce novel combinations of ferroelectric and magnetic properties. The fundamental unders ....Ferroelectric - ferromagnetic tunnel junctions. Ferroelectric and ferromagnetic materials have attracted significant attention and exhibited potential in many applications such as storage memories, solid-state light sources and a range of smart chemical and biological sensors. This proposal seeks to investigate the behaviour of these materials in ultra-thin film form, where imposed geometrical constraints produce novel combinations of ferroelectric and magnetic properties. The fundamental understanding of the behaviour of these materials will help us develop new material systems with exciting possibilities in the design of advanced devices and sensors.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
Elastically controlled magnetoelectric transduction in thin film multilayers. Ferroelectric and ferromagnetic materials have attracted significant attention and exhibited potential in many applications such as storage memories, solid-state light sources and a range of smart chemical and biological sensors. This proposal seeks to investigate the behaviour of these materials in layered form, where an imposed mechanical traction induces novel combinations of ferroelectric and magnetic properties. T ....Elastically controlled magnetoelectric transduction in thin film multilayers. Ferroelectric and ferromagnetic materials have attracted significant attention and exhibited potential in many applications such as storage memories, solid-state light sources and a range of smart chemical and biological sensors. This proposal seeks to investigate the behaviour of these materials in layered form, where an imposed mechanical traction induces novel combinations of ferroelectric and magnetic properties. The fundamental understanding of the behaviour of these materials will help us develop new material systems with exciting possibilities in the design of advanced devices and sensors.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
Superconducting MgB2 thin films and structures for electronic devices and telecommunication applications. Two important directions of electronic application for MgB2 films are superconducting Josephson junction (JJ) technology and passive microwave devices. Superconducting JJ technology will have a small but important niche in high-performance digital signal and data processing applications for civilian, commercial, and military terrestrial, as well as space deployment. With superconducting pass ....Superconducting MgB2 thin films and structures for electronic devices and telecommunication applications. Two important directions of electronic application for MgB2 films are superconducting Josephson junction (JJ) technology and passive microwave devices. Superconducting JJ technology will have a small but important niche in high-performance digital signal and data processing applications for civilian, commercial, and military terrestrial, as well as space deployment. With superconducting passive microwave devices, the potentially largest market in this segment are filter systems for ground- or satellite based wireless communication systems. The research outcome could support Australian companies to develop corresponding products, as well as broaden Australia's knowledge of the physics of the new MgB2 superconductor.Read moreRead less
Microanalysis of novel carbon thin films. Carbon coatings are technologically important and have many applications in automotive and biomedical industries worldwide. An example automotive application is as a coating for high performance fuel injectors. Carbon coatings have significant unrealised potential for applications in hostile environments such as those encountered in high performance engineering components and in the human body. Electrical devices can be fabricated with these films suitab ....Microanalysis of novel carbon thin films. Carbon coatings are technologically important and have many applications in automotive and biomedical industries worldwide. An example automotive application is as a coating for high performance fuel injectors. Carbon coatings have significant unrealised potential for applications in hostile environments such as those encountered in high performance engineering components and in the human body. Electrical devices can be fabricated with these films suitable for use in compact electrical devices requiring high current density. This project will add to the techniques used for the analysis of carbon coatings being developed in Australia. Read moreRead less