Mapping electronic structure and material properties with atomic resolution. This project will use electron energy loss spectroscopy (EELS) to map the bonding and electronic structure of InGaN quantum wells at the atomic scale. We will measure and correlate the local composition, strain and electronic structure variations within the wells in order to understand the optical emission in this system. The characterisation tools developed will allow us to go beyond measuring structure and composition ....Mapping electronic structure and material properties with atomic resolution. This project will use electron energy loss spectroscopy (EELS) to map the bonding and electronic structure of InGaN quantum wells at the atomic scale. We will measure and correlate the local composition, strain and electronic structure variations within the wells in order to understand the optical emission in this system. The characterisation tools developed will allow us to go beyond measuring structure and composition and map properties of nano-materials at the atomic scale.Read moreRead less
Fabrication, charge and spin ordering, magnetoresistance, and polaron effects in nano-size and single crystals of novel transition metal perovskite oxides. The aim of the project is to synthesize a systematic series of novel colossal magnetoresistance manganese, cobalt and iron based transition metal perovskite oxides in the forms of nano-structures, nano-structured composites and single crystals using advanced nano-technology and crystal growth techniques. Extensive fundamental studies on magne ....Fabrication, charge and spin ordering, magnetoresistance, and polaron effects in nano-size and single crystals of novel transition metal perovskite oxides. The aim of the project is to synthesize a systematic series of novel colossal magnetoresistance manganese, cobalt and iron based transition metal perovskite oxides in the forms of nano-structures, nano-structured composites and single crystals using advanced nano-technology and crystal growth techniques. Extensive fundamental studies on magnetoresistance, spin and change ordering, and nano-scale behaviors will be carried out by neutron diffraction, synchrotron radiation, transport and magnetic measurements over a wide temperature range and magnetic fields. The outcomes of this project are likely to lead to a better undertanding of the colossal magnetoresistance mechanisms, the discovery of fascinating new physical phenomena and suitable magnetoresistance materials for superior magnetic recording, sensing and switch devicesRead moreRead less
Exploration for new materials for spintronics. The scope for use of spintronic materials in practical applications will be enormous and there will be a huge market for spintronic devices. In fact, giant magnetoresistance spintronic materials are already used in practical applications such as magnetic recording and storage devices. The success of this project will certainly lead to a discovery of novel magnetic semiconductor spintronic materials and better understanding of spin dependent magneti ....Exploration for new materials for spintronics. The scope for use of spintronic materials in practical applications will be enormous and there will be a huge market for spintronic devices. In fact, giant magnetoresistance spintronic materials are already used in practical applications such as magnetic recording and storage devices. The success of this project will certainly lead to a discovery of novel magnetic semiconductor spintronic materials and better understanding of spin dependent magnetic interactions. It will enhance the international competitiveness and export power of Australian industry in the areas of information technology, quantum computing, magnetic recording and magneto-electronics. Read moreRead less
Deterministic plasma-aided nanoassembly: from elementary processes to industry-grade nano- and biomaterials. This collaborative project aims to develop new approaches for the improved plasma-based synthesis of selected nano- and biomaterials that will comply with the relevant industry standards. It is based on extensive international research networking and will ultimately lead to a major breakthrough in highly-controlled plasma-aided synthesis of advanced functional materials and devices. The p ....Deterministic plasma-aided nanoassembly: from elementary processes to industry-grade nano- and biomaterials. This collaborative project aims to develop new approaches for the improved plasma-based synthesis of selected nano- and biomaterials that will comply with the relevant industry standards. It is based on extensive international research networking and will ultimately lead to a major breakthrough in highly-controlled plasma-aided synthesis of advanced functional materials and devices. The project outcomes will attract the interest of established and emerging industries in Australia, Singapore and other countries, and will be useful for the development of small high-tech companies in Australia. This project is ideally suited for training of early-career postdoctoral researchers and research students of competitive international standing.Read moreRead less
Microscopic Origin of Ferromagnetism of Diluted Magnetic Demiconductors. Spintronics based on the spin in addition to the charge of electrons is believed to revolutionize current microelectronics, which is approaching the end of the so-called silicon road map. Diluted magnetic semiconductors are required to achieve spintronics, just as silicon in microelectronics. This project aims to understand the microscopic origin of ferromagnetism of diluted magnetic semiconductors - a major obstacle toward ....Microscopic Origin of Ferromagnetism of Diluted Magnetic Demiconductors. Spintronics based on the spin in addition to the charge of electrons is believed to revolutionize current microelectronics, which is approaching the end of the so-called silicon road map. Diluted magnetic semiconductors are required to achieve spintronics, just as silicon in microelectronics. This project aims to understand the microscopic origin of ferromagnetism of diluted magnetic semiconductors - a major obstacle towards spintronics. This research, addressing an important problem in breakthrough science and frontier technologies, will not only expand Australia's knowledge base and research capability, but also help to build Australia's high value-added industries. Read moreRead less
Plasma nanotools: bridging plasma physics and surface science. This project will herald a new frontier research area at the edge of plasma physics and surface science, secure and strengthen Australia's presence in newly emerging nanotechnology fields, reveal the superior potential of and raise the global high-tech market sentiment in plasma-aided nanofabrication of flat display panels, biosensors, nanoelectronic devices, smart nanomaterials, and other high-tech products. The outcomes will ultima ....Plasma nanotools: bridging plasma physics and surface science. This project will herald a new frontier research area at the edge of plasma physics and surface science, secure and strengthen Australia's presence in newly emerging nanotechnology fields, reveal the superior potential of and raise the global high-tech market sentiment in plasma-aided nanofabrication of flat display panels, biosensors, nanoelectronic devices, smart nanomaterials, and other high-tech products. The outcomes will ultimately lead to new environment-friendly and cost-efficient plasma-based technologies and nanofabrication and nanotooling industries in Australia. High profile of Australia-based research will be raised via a new network of international collaborations and low-cost involvement into forefront research programs.Read moreRead less
THE DEVELOPMENT OF MECHANISTIC MODELS FOR BUBBLY FLOWS WITH HEAT AND MASS TRANSFER. Commercially available CFD computer codes are currently widely used in many Australian industrial sectors. It is clearly recognised that the state-of-the-art models for dealing with complex bubbly flows with/without heat and mass transfer in these computer codes require further developments and improvements. This research project will address the prevalent deficiency in many of these computer codes. It is antici ....THE DEVELOPMENT OF MECHANISTIC MODELS FOR BUBBLY FLOWS WITH HEAT AND MASS TRANSFER. Commercially available CFD computer codes are currently widely used in many Australian industrial sectors. It is clearly recognised that the state-of-the-art models for dealing with complex bubbly flows with/without heat and mass transfer in these computer codes require further developments and improvements. This research project will address the prevalent deficiency in many of these computer codes. It is anticipated that through this major development of new models capable of predicting a wide range of industrial bubbly flow problems and implementation thereafter in these computer codes, industries will experience significant benefits especially reduce time and costs in their design and production.Read moreRead less
Experimental and Numerical Modelling of Gas-Liquid Flows. Multiphase flow systems are encountered in many process industries such as chemical, petroleum, mining, energy, food and pharmaceutical, which are fundamental to the Australian economy. Commercially available computer codes for simulating such systems are currently widely used in many Australian industrial sectors. This research project will address the prevalent deficiency in many of these computer codes and develop new models capable of ....Experimental and Numerical Modelling of Gas-Liquid Flows. Multiphase flow systems are encountered in many process industries such as chemical, petroleum, mining, energy, food and pharmaceutical, which are fundamental to the Australian economy. Commercially available computer codes for simulating such systems are currently widely used in many Australian industrial sectors. This research project will address the prevalent deficiency in many of these computer codes and develop new models capable of predicting a wide range of industrial bubbly flow problems. The resultant improved computer codes will provide industries with significant benefits - especially reduced times and costs in their design and production.Read moreRead less
Special Research Initiatives - Grant ID: SR0567334
Funder
Australian Research Council
Funding Amount
$125,748.00
Summary
A Grid-Enabled National Archive of Nanostructural Imagery (GRANI). The Nanostructural Analysis Network Organization (NANO) is an Australian Major National Research Facility that provides access to a grid of advanced microscopic instruments for the nanostructural analysis of both physical materials and biological systems. The aim of this initiative is to provide the NANO community with a set of common, interoperable tools and services to enable more efficient, cost-effective storage, management, ....A Grid-Enabled National Archive of Nanostructural Imagery (GRANI). The Nanostructural Analysis Network Organization (NANO) is an Australian Major National Research Facility that provides access to a grid of advanced microscopic instruments for the nanostructural analysis of both physical materials and biological systems. The aim of this initiative is to provide the NANO community with a set of common, interoperable tools and services to enable more efficient, cost-effective storage, management, analysis and sharing of generated microscopic images, video and analytical data. The significance of the proposed middleware is that it will improve collaboration and reduce duplication across many disciplines, through a shareable, distributed national scientific image/video database.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989347
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
CYCLOPS - A Better Way to Find Extrasolar Planets. The primary scientific driver for this new facility is the search for planets orbiting other stars. Australian astronomers, and the Anglo-Australian Telescope, have played a leading role in this new frontier for astronomy, detecting 25 of the 250-odd extrasolar planets known to orbit nearby stars. The CYCLOPS project brings together a team of leading Australian astronomers to build on this track record with a new facility that further advances A ....CYCLOPS - A Better Way to Find Extrasolar Planets. The primary scientific driver for this new facility is the search for planets orbiting other stars. Australian astronomers, and the Anglo-Australian Telescope, have played a leading role in this new frontier for astronomy, detecting 25 of the 250-odd extrasolar planets known to orbit nearby stars. The CYCLOPS project brings together a team of leading Australian astronomers to build on this track record with a new facility that further advances Australia's capabilities in both this field, and several other high-profile astronomical endeavours: including the study of seismology in stellar interiors, the detailed measurement of elemental abundances in stars throughout our Galaxy, and the mapping of spot features on the surfaces of stars.Read moreRead less