Hierarchically Structured Graphene-Based Nanoassemblies. Developing high-efficiency, low-cost and environmentally friendly electrochemical energy conversion and storage devices is essential to many consumer electronics. The development of high-performance graphene-based electrode materials in this project will have significant impacts on the Australian economy. This project is expected to help place Australia at the forefront of advanced energy materials and nanotechnology, and enhance the inter ....Hierarchically Structured Graphene-Based Nanoassemblies. Developing high-efficiency, low-cost and environmentally friendly electrochemical energy conversion and storage devices is essential to many consumer electronics. The development of high-performance graphene-based electrode materials in this project will have significant impacts on the Australian economy. This project is expected to help place Australia at the forefront of advanced energy materials and nanotechnology, and enhance the international competitiveness and export power of Australian industry in the high-technology areas. It will also help address the rapidly growing environmental concerns and the increasing global demand for energy.Read moreRead less
Development of nonvolatile fast proton-transport materials. There are many problems with existing proton-transport materials for emerging fuel cell applications such as electric vehicles. A high proton conductivity and high thermal stability are some of the requirements for fuel cell electrolytes. The aims of this project are to develop nonvolatile proton-transport matrices based on zwitterionic liquids with various acids, develop polymer gel materials based on these, and characterize these ne ....Development of nonvolatile fast proton-transport materials. There are many problems with existing proton-transport materials for emerging fuel cell applications such as electric vehicles. A high proton conductivity and high thermal stability are some of the requirements for fuel cell electrolytes. The aims of this project are to develop nonvolatile proton-transport matrices based on zwitterionic liquids with various acids, develop polymer gel materials based on these, and characterize these new proton-transport materials by analyzing ionic conductivity, viscosity, thermal behaviors, and their interrelationships.Read moreRead less
Hydro-mechanical interactions in coal geo-sequestration of carbon dioxide. One of the most critical environmental issues facing society is that of global warming because of increasing concentrations of carbon dioxide released from burning of fossil fuels. Storage of CO2 in the ground, geo-sequestration, offers the promise of significant reductions in atmospheric CO2 release, particularly from coal fired power stations which produce 40% of Australia's CO2 emissions. The proposed project will lead ....Hydro-mechanical interactions in coal geo-sequestration of carbon dioxide. One of the most critical environmental issues facing society is that of global warming because of increasing concentrations of carbon dioxide released from burning of fossil fuels. Storage of CO2 in the ground, geo-sequestration, offers the promise of significant reductions in atmospheric CO2 release, particularly from coal fired power stations which produce 40% of Australia's CO2 emissions. The proposed project will lead to greater understanding and reduced risks during the injection and storage of CO2 in deep unmineable coal deposits. This will contribute to national efforts to reduce global warming, safeguard the Australian coal industry, and allow continued electricity generation from coal-fired plants. Read moreRead less
Advanced Polymer Electrolytes for Device Applications. The future of an energy sustainable society relies upon the development of a range of technologies that will involve devices such as lithium batteries, supercapacitors, sensors and fuel cells. One of the key challenges is the discovery and development of high performance materials which overcome performance limiting issues such as conductivity, durability and stability in current devices. Our recent discovery of novel successful approaches ....Advanced Polymer Electrolytes for Device Applications. The future of an energy sustainable society relies upon the development of a range of technologies that will involve devices such as lithium batteries, supercapacitors, sensors and fuel cells. One of the key challenges is the discovery and development of high performance materials which overcome performance limiting issues such as conductivity, durability and stability in current devices. Our recent discovery of novel successful approaches to the design of improved electrolyte materials will be systematically exploited to develop materials that will provide the significant advance in device performance that is required.Read moreRead less
Future sodium based electrochemical energy storage technologies. New rechargeable batteries will be developed through the use of breakthrough electrolytes based on liquid salts. These batteries are vital for the widespread use of renewables in Australia's electricity grid. They will also enable new generations of environmental sensor technology.
Advanced Na battery technology; key to transforming society's energy use. This project aims to advance energy storage technology based on low cost and sustainable sodium chemistry through understanding new electrode and electrolyte materials combinations, particularly to enhance the way charge is moved across the electrolyte–electrode interface. Sodium batteries represent a low-cost alternative to existing lithium devices and their development will affect a broad range of technologies. This is e ....Advanced Na battery technology; key to transforming society's energy use. This project aims to advance energy storage technology based on low cost and sustainable sodium chemistry through understanding new electrode and electrolyte materials combinations, particularly to enhance the way charge is moved across the electrolyte–electrode interface. Sodium batteries represent a low-cost alternative to existing lithium devices and their development will affect a broad range of technologies. This is especially relevant to electric vehicles and renewable energy where large, expensive batteries are needed.Read moreRead less
Sustainable high energy sodium batteries with enhanced safety & cycle life. This project aims to deliver a high specific energy, ambient temperature sodium metal battery that is more sustainable, safer and better performing than existing technologies. Innovative chemistry will be used to replace the current flammable and toxic organic solvent-based systems, while novel tools and capabilities will be forged to retain Australian leadership in this sector. These advances will provide a technology ....Sustainable high energy sodium batteries with enhanced safety & cycle life. This project aims to deliver a high specific energy, ambient temperature sodium metal battery that is more sustainable, safer and better performing than existing technologies. Innovative chemistry will be used to replace the current flammable and toxic organic solvent-based systems, while novel tools and capabilities will be forged to retain Australian leadership in this sector. These advances will provide a technology and materials platform to generate and support emerging energy storage industries in Australia. It will strengthen international collaborations with leading research teams and provide opportunities and training for the next generation of energy storage research leaders in both academia and industry.Read moreRead less
Cellular and network basis of information processing in the mammalian visual system. The project aims to discover the strategies by which cells in the brain interact with each other to code the sensory input efficiently. It is expected that simultaneous recording of the activity of many neurones from the visual cortex of anaesthetised cats during visual stimulation will reveal how the biophysics of synaptic integration combined with excitatory and inhibitory inputs from different sources sculpt ....Cellular and network basis of information processing in the mammalian visual system. The project aims to discover the strategies by which cells in the brain interact with each other to code the sensory input efficiently. It is expected that simultaneous recording of the activity of many neurones from the visual cortex of anaesthetised cats during visual stimulation will reveal how the biophysics of synaptic integration combined with excitatory and inhibitory inputs from different sources sculpts the output of individual neurones. The experiments will be extended to the study of possible interactions between different areas of the brain and the study of mechanisms by which the cortical network and higher cognitive factors such as attention and memory might influence the coding of sensory information in awake animals.Read moreRead less
Future electrochemical energy storage technologies. New rechargeable batteries will be developed through the use of breakthrough electrolytes based on liquid salts. These batteries are vital for the widespread use of renewables in Australia's electricity grid. They will also enable new generations of environmental sensor technology.
Acoustomicrofluidic platforms for two-dimensional materials processing. This project aims to exploit high frequency vibration through a novel microfluidic platform for efficiently synthesising and manipulating two-dimensional materials. The project is anticipated to circumvent practical limitations with current synthesis methods, particularly in terms of controllability and reproducibility. The expected outcome is a versatile means for rapidly and uniformly coating these materials on a variety o ....Acoustomicrofluidic platforms for two-dimensional materials processing. This project aims to exploit high frequency vibration through a novel microfluidic platform for efficiently synthesising and manipulating two-dimensional materials. The project is anticipated to circumvent practical limitations with current synthesis methods, particularly in terms of controllability and reproducibility. The expected outcome is a versatile means for rapidly and uniformly coating these materials on a variety of surfaces. Given their remarkable properties, such disruptive technology for consumer/industrial-scale production will provide tremendous opportunities for their application in electronics, energy and catalysis, among other uses.Read moreRead less