New dielectric materials: Improving storage density of high temperature multilayer ceramic capacitors to sustainably meet future energy demands. Electrical energy generation from renewable sources, such as solar, wind and geothermal, provide enormous potential for meeting future energy demands. However, the ability to store and control this energy for miniaturisation and modularisation in applications requiring a wide temperature usage range is a limiting factor that needs to be addressed. This ....New dielectric materials: Improving storage density of high temperature multilayer ceramic capacitors to sustainably meet future energy demands. Electrical energy generation from renewable sources, such as solar, wind and geothermal, provide enormous potential for meeting future energy demands. However, the ability to store and control this energy for miniaturisation and modularisation in applications requiring a wide temperature usage range is a limiting factor that needs to be addressed. This project aims to develop new bismuth-based lead-free dielectric materials for improving the storage density of high temperature multilayer ceramic capacitors for sustainable applications in the energy and vehicle industries, where high temperature stability and high volumetric efficiency are crucial.Read moreRead less
Scaling-up microfluidic drying as an efficient route to manufacture uniform and functional particles as high-value products. This project aims to scale-up microfluidic spray drying and demonstrate the method as a viable option to manufacture monodisperse microparticles as bioactive carriers or microencapsulates, with better functional properties and uniformity. It aims to transform the manufacturing of high-value products for pharmaceuticals, functional foods and biotechnology applications and l ....Scaling-up microfluidic drying as an efficient route to manufacture uniform and functional particles as high-value products. This project aims to scale-up microfluidic spray drying and demonstrate the method as a viable option to manufacture monodisperse microparticles as bioactive carriers or microencapsulates, with better functional properties and uniformity. It aims to transform the manufacturing of high-value products for pharmaceuticals, functional foods and biotechnology applications and lift productivity by managing innovation for Australia’s industries.Read moreRead less
Nanobionic plants. This project aims to develop nanobionic plants as network of semi-permanent sensors capable of rapid, sensitive, selective and unmanned detection and detoxification of chemical warfare agents in aquatic environments and in open air on-site, to allow timely and effective countermeasures. The anticipated goal is to advance the field of advanced manufacturing, environmental change, and nanotechnology with potential to support new national defence capabilities and to value-add Aus ....Nanobionic plants. This project aims to develop nanobionic plants as network of semi-permanent sensors capable of rapid, sensitive, selective and unmanned detection and detoxification of chemical warfare agents in aquatic environments and in open air on-site, to allow timely and effective countermeasures. The anticipated goal is to advance the field of advanced manufacturing, environmental change, and nanotechnology with potential to support new national defence capabilities and to value-add Australian manufacturing industries with innovative, disruptive technologies that lead to achievable opportunities to address its unique needs and to claim Australia’s position within the competitive global manufacturing and defence technology market.Read moreRead less
High-Performance and Evaporative Triboelectric Nanogenerators. This project aims to create high performance triboelectric nanogenerators (TENGs) with outstanding moisture wicking and thermal-moisture stability, while providing a comfortable platform for biomechanical energy harvesting and self-powered sensing. The project expects to generate new knowledge on simultaneous enhancement of output power and moisture management capability of tribo-textiles using interdisciplinary approaches. This shou ....High-Performance and Evaporative Triboelectric Nanogenerators. This project aims to create high performance triboelectric nanogenerators (TENGs) with outstanding moisture wicking and thermal-moisture stability, while providing a comfortable platform for biomechanical energy harvesting and self-powered sensing. The project expects to generate new knowledge on simultaneous enhancement of output power and moisture management capability of tribo-textiles using interdisciplinary approaches. This should overcome the bottleneck of output deterioration of TENGs under humid conditions and provide significant benefits by offering an attractive renewable energy source for driving low power sensors in the era of IoT and opening new opportunities in healthcare, sports, virtual reality and smart homes.
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Operator algebras as models for dynamics and geometry. Operator algebra is the mathematical theory which describes quantum physics and predicts how quantum systems will behave. Through this project, the researcher's recent discoveries in operator algebra will give us new insight into the dynamics and geometry - that is, the behaviour and shape - of the quantum world.
Oxide-semiconductor epitaxy: towards next generation nanoelectronics. This project aims to integrate high quality functional oxide heterostructures with semiconductor platforms and address the fundamental obstacles in oxides for highly efficient and high-speed transistor applications by engineering their electronic band structures. The project aims to establish a bridge between the diverse electronic properties of oxides and the established semiconductor platform, and generate new devices and fu ....Oxide-semiconductor epitaxy: towards next generation nanoelectronics. This project aims to integrate high quality functional oxide heterostructures with semiconductor platforms and address the fundamental obstacles in oxides for highly efficient and high-speed transistor applications by engineering their electronic band structures. The project aims to establish a bridge between the diverse electronic properties of oxides and the established semiconductor platform, and generate new devices and functionalities. Expected outcomes include epitaxial functional oxides on Gallium arsenide with ultrahigh, room-temperature sheet electron mobility and a comprehensive understanding of its microscopic origin. This will fundamentally change the route toward novel transistors based on high speed and low energy oxide electronics.Read moreRead less
Enhance ferromagnetic ordering by exchange coupling and defect engineering. This project aims to achieve room temperature ferromagnetism in two-dimensional materials via magnetic element doping and defect and interface engineering. Achieving high spin polarisation, high spin diffusion length and effective spin manipulation, the pre-requisites for functional spintronics devices, makes research into two-dimensional materials for spintronics applications difficult. This project could establish a so ....Enhance ferromagnetic ordering by exchange coupling and defect engineering. This project aims to achieve room temperature ferromagnetism in two-dimensional materials via magnetic element doping and defect and interface engineering. Achieving high spin polarisation, high spin diffusion length and effective spin manipulation, the pre-requisites for functional spintronics devices, makes research into two-dimensional materials for spintronics applications difficult. This project could establish a solid foundation for realising qualified spintronics materials for spintronics devices. The expected outcomes are low power, high speed, spintronics devices, enhancing Australia’s strength in spintronics research.Read moreRead less
Robust Bulk Thermoelectric Technology for Harvesting Waste Energy. This project aims to develop robust thermoelectric technology to harvest waste energy from the use of fossil fuels by (i) establishing new strategies for enhancing thermoelectric properties, (ii) creating mass-production synthesis to reduce the materials cost, and (iii) exploring computation methods to guide the device assembly. Its focus is to improve the average thermoelectric performance, overcome the brittleness of materials, ....Robust Bulk Thermoelectric Technology for Harvesting Waste Energy. This project aims to develop robust thermoelectric technology to harvest waste energy from the use of fossil fuels by (i) establishing new strategies for enhancing thermoelectric properties, (ii) creating mass-production synthesis to reduce the materials cost, and (iii) exploring computation methods to guide the device assembly. Its focus is to improve the average thermoelectric performance, overcome the brittleness of materials, and ensure thermal stability. This project expects to generate new knowledge in manipulating transport properties. The intended outcome of affordable, robust, and functional thermoelectrics can be used for recovering waste heat, which will significantly benefit Australia’s economy, environment, and energy industry.Read moreRead less
Development of Novel Functionalised Two-dimensional Nanomaterials. This project aims to develop a series of novel 2D nanomaterials and their nanocomposites that have applications ranging from energy storage via a functional separator for batteries to thermal management devices. Developing novel functional 2D nanomaterials is important for several applications including energy storage, composite materials, and thermal management, as well as advancing knowledge in the control design of 2D nanomate ....Development of Novel Functionalised Two-dimensional Nanomaterials. This project aims to develop a series of novel 2D nanomaterials and their nanocomposites that have applications ranging from energy storage via a functional separator for batteries to thermal management devices. Developing novel functional 2D nanomaterials is important for several applications including energy storage, composite materials, and thermal management, as well as advancing knowledge in the control design of 2D nanomaterials and to promote the development of sustainable energy storage and thermal management technologies. The benefits to Australia, will be in addressing energy and environmental concerns by developing new clean and environmentally friendly energy devices and boosting national economic growth.Read moreRead less
Two-dimensional transition metal nitrides for energy applications. This project aims to develop novel nanomaterials for sustainable energy applications such as blue energy generation and energy storage. The focus is to explore novel 2D transition metal nitride nanomaterials and their advanced heterostructures with large specific surface area, high electrical conductivity and chemical stability. The expected outcomes include development of high-performance devices such as osmotic energy harvestin ....Two-dimensional transition metal nitrides for energy applications. This project aims to develop novel nanomaterials for sustainable energy applications such as blue energy generation and energy storage. The focus is to explore novel 2D transition metal nitride nanomaterials and their advanced heterostructures with large specific surface area, high electrical conductivity and chemical stability. The expected outcomes include development of high-performance devices such as osmotic energy harvesting devices for blue energy generation and micro-supercapacitors for energy storage. This should promote the growth of sectors in advanced materials, sustainable energy generation, smart energy storage and manufacturing, bringing efficient energy generation and storage system benefits to the Australia and the world.Read moreRead less