Molecular Modelling of Growth Mechanisms and Electronic Properties of Nanostructured Metal-Oxides. This proposal falls in the Australia National Research Priority area of advanced materials. The growth and functionality of nanostructured metal oxides will be simulated using both first principle calculations and molecular dynamic simulations. It will lead to important photonic nanomaterials for maintaining good health, drug delivery and cancer treatment, thus contributing to Australian health car ....Molecular Modelling of Growth Mechanisms and Electronic Properties of Nanostructured Metal-Oxides. This proposal falls in the Australia National Research Priority area of advanced materials. The growth and functionality of nanostructured metal oxides will be simulated using both first principle calculations and molecular dynamic simulations. It will lead to important photonic nanomaterials for maintaining good health, drug delivery and cancer treatment, thus contributing to Australian health care industry. The methodology to be developed in this project will also contribute to the science of molecular simulations and photonic nanomaterials.Read moreRead less
Development of high performance III-V semiconductor photoconductive antennas for terahertz applications. The practical applications of terahertz (THz) radiation include scientific probing for material characterisation, screening for weapons, explosives and biohazards, imaging for concealed objects and medical diagnostics, chemical and biological analysis, astronomy and space research. The success of this project will lead to the creation of a new generation of high performance THz emitters/detec ....Development of high performance III-V semiconductor photoconductive antennas for terahertz applications. The practical applications of terahertz (THz) radiation include scientific probing for material characterisation, screening for weapons, explosives and biohazards, imaging for concealed objects and medical diagnostics, chemical and biological analysis, astronomy and space research. The success of this project will lead to the creation of a new generation of high performance THz emitters/detectors essential for above applications, making great contribution to the Nation in the areas of science, technology, health, security and economy.Read moreRead less
Combining the soft with the hard: The assembly of artificial cell membranes on porous semiconductors. The platform technologies developed in this project will have a wide range of applications. They will reveal new insights into drug-membrane and drug-protein interactions underpinning development of a new generation of drugs acting on transmembrane proteins that are linked to a wide range of diseases. The development of membrane-based biosensing devices targeting ion channels, membrane active pe ....Combining the soft with the hard: The assembly of artificial cell membranes on porous semiconductors. The platform technologies developed in this project will have a wide range of applications. They will reveal new insights into drug-membrane and drug-protein interactions underpinning development of a new generation of drugs acting on transmembrane proteins that are linked to a wide range of diseases. The development of membrane-based biosensing devices targeting ion channels, membrane active peptides or toxins which can be applied to biomedical diagnostics, biotoxin detection, environmental and food control will be readily achievable. This international interdisciplinary nanobiotechnology programme and its outcomes will enhance Australia's abilities in frontier technologies and build research strength in nanobiotechnology.Read moreRead less
New directions to miniaturized power sources: Integrated all-solid-state rechargeable batteries. This project will lead to the development of safe integrated all-solid-state miniaturized lithium ion batteries for small autonomous devices, such as implantable medical devices, hearing aids, small autonomous devices with sensing and actuation, and for communications and rapid chemical/biological analysis. This will make a significant contribution to the nation in the areas of science, technology, h ....New directions to miniaturized power sources: Integrated all-solid-state rechargeable batteries. This project will lead to the development of safe integrated all-solid-state miniaturized lithium ion batteries for small autonomous devices, such as implantable medical devices, hearing aids, small autonomous devices with sensing and actuation, and for communications and rapid chemical/biological analysis. This will make a significant contribution to the nation in the areas of science, technology, health, and the economy. 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 also provide excellent training for postgraduate students and young researchers to develop their skills in chemistry, materials science, and battery technology.Read moreRead less
ARC Research Network for Advanced Materials. Materials science/engineering is decidedly interdisciplinary, covering all science and impacting on all manufacturing industry. This network will promote interactions that do not usually occur between materials researchers and students across Australia and internationally from diverse disciplines. The scope is broadly based on advanced materials production, processing and properties but focused in four areas, involving: i) innovative structural/functi ....ARC Research Network for Advanced Materials. Materials science/engineering is decidedly interdisciplinary, covering all science and impacting on all manufacturing industry. This network will promote interactions that do not usually occur between materials researchers and students across Australia and internationally from diverse disciplines. The scope is broadly based on advanced materials production, processing and properties but focused in four areas, involving: i) innovative structural/functional materials, ii) high-tech IT/communications/sensing materials, iii) materials solutions for manufacturing, iv) materials for a sustainable Australia, and v) emerging materials technologies. Key programs will promote interdisciplinary workshops and early career researcher interactions.Read moreRead less
A high performance and environment-friendly piezoelectric detector platform for biosensor applications. The development of high performance, lead-free, piezoelectric films and their incorporation into devices is rapidly becoming an urgent task as a result of recent legislation banning the use of lead in electronic components. The successful development of piezoelectric biosensors, as proposed in this project, has numerous potential benefits including the prospect of rapid and cheap biosensor dev ....A high performance and environment-friendly piezoelectric detector platform for biosensor applications. The development of high performance, lead-free, piezoelectric films and their incorporation into devices is rapidly becoming an urgent task as a result of recent legislation banning the use of lead in electronic components. The successful development of piezoelectric biosensors, as proposed in this project, has numerous potential benefits including the prospect of rapid and cheap biosensor devices as well as an environment-friendly, sensitive and real time solution for on-site drug, chemical and biological sensing. Successful development of the latter would provide immediate benefit in the areas of national security, food safety as well as in environmental and health monitoring. Read moreRead less
Self-assembled surface arrays of mesoscale plasmonic devices for switchable control of coloured surfaces. This project has a well-defined outcome with potentially significant commercial interest. The proposed device is novel and the development of it will enhance the science and technology infrastructure within Australia, taking it into original and exciting directions. A successful demonstration of it will enhance Australia's competitive position in the field of nanotechnology and could conceiv ....Self-assembled surface arrays of mesoscale plasmonic devices for switchable control of coloured surfaces. This project has a well-defined outcome with potentially significant commercial interest. The proposed device is novel and the development of it will enhance the science and technology infrastructure within Australia, taking it into original and exciting directions. A successful demonstration of it will enhance Australia's competitive position in the field of nanotechnology and could conceivably lead to a manufacturing activity either located in Australia or in which Australian entities have an interest. Envisaged applications include optical circuitry, 'smart' windows and display surfaces on consumer devices.Read moreRead less
Self-cleaning thin films for anti-reflective solar cell coatings. This project addresses an important industry need by designing a new class of functional composite coatings for efficiency and durability improvement of solar cells. A successful outcome will provide an important breakthrough in thin film technology applicable not only to solar panels but also other coating applications.
Understanding the role of catalysts in the growth of epitaxial semiconductor nanowires and their hierarchical heterostructures. This Fellowship aims to comprehensively determine the role of catalysts during nanowire growth, solving the bottle-neck problem for growing device-applicable nanowires. In order to address this complicated scientific challenge, the project plans to collaborate with several world-leading researchers in different areas, such as growth, property measurements and modelling. ....Understanding the role of catalysts in the growth of epitaxial semiconductor nanowires and their hierarchical heterostructures. This Fellowship aims to comprehensively determine the role of catalysts during nanowire growth, solving the bottle-neck problem for growing device-applicable nanowires. In order to address this complicated scientific challenge, the project plans to collaborate with several world-leading researchers in different areas, such as growth, property measurements and modelling. The outcomes of this Fellowship will not only provide new science in terms of nanowire growth, but also provide guidelines for designing, developing and manufacturing nanowire-based nanostructures for future nanodevices and nanosystems. This is strategically important to place Australia at the forefront of developments on nanoscience and nanotechnology.Read moreRead less
Solar rechargeable batteries for wearable electronics. This project aims to develop a new solar battery as a sustainable power source for future wearable electronics. The research will develop solar rechargeable Zinc-Manganese oxide batteries based on new stretchable microelectrodes and materials engineering for the direct storage of solar energy. Expected outcomes include new classes of planar-type solar batteries, functional microelectrodes and energy materials, as well as new knowledge genera ....Solar rechargeable batteries for wearable electronics. This project aims to develop a new solar battery as a sustainable power source for future wearable electronics. The research will develop solar rechargeable Zinc-Manganese oxide batteries based on new stretchable microelectrodes and materials engineering for the direct storage of solar energy. Expected outcomes include new classes of planar-type solar batteries, functional microelectrodes and energy materials, as well as new knowledge generated from collaborations across materials science, photoelectrochemistry and nanotechnology disciplines. These will not only expand the applications of solar batteries to a new domain of wearable electronics, but also may eventually lead to new industry advances in functional materials for clean energy.Read moreRead less