Subunit stoichiometry and arrangement in the glycine receptor. Glycine receptors are important for nervous system function. These receptors comprise a mixture of 5 alpha and beta subunits arranged around a central ion-conducting pore. The subunit stoichiometry (i.e., numbers of alpha and beta subunits) and arrangement (i.e., subunit order) are unknown. The first aim of this project is to define these parameters using tethered subunits. The second aim is to use the tethered subunits to probe th ....Subunit stoichiometry and arrangement in the glycine receptor. Glycine receptors are important for nervous system function. These receptors comprise a mixture of 5 alpha and beta subunits arranged around a central ion-conducting pore. The subunit stoichiometry (i.e., numbers of alpha and beta subunits) and arrangement (i.e., subunit order) are unknown. The first aim of this project is to define these parameters using tethered subunits. The second aim is to use the tethered subunits to probe the structure and function of glycine and zinc binding sites at an unprecedented level of resolution. The results will provide crucial new information concerning glycine receptor structure and function.Read moreRead less
Dissection of nodule and lateral root development in the model legume Lotus japonicus. We propose to isolate and decipher the function of plant genes involved in nodule development, with the view to extend and compare this knowledge to lateral root formation. While nodulation and lateral root formation are distinct processes, they appear to share anatomical and biochemical features. Working hypothesis is that nodule formation borrowed functions from lateral root development. Our approach impleme ....Dissection of nodule and lateral root development in the model legume Lotus japonicus. We propose to isolate and decipher the function of plant genes involved in nodule development, with the view to extend and compare this knowledge to lateral root formation. While nodulation and lateral root formation are distinct processes, they appear to share anatomical and biochemical features. Working hypothesis is that nodule formation borrowed functions from lateral root development. Our approach implements T-DNA and transposon insertional mutagenesis in the model legume Lotus japonicus. The success of this project will contribute significantly to the studies of plant-microbe interaction and plant morphogenesis.Read moreRead less
TAILORING OF CARBON MATERIALS FOR USE IN DIRECT CARBON FUEL CELLS. This project aims to develop a fundamental understanding of and methods for tailoring carbon materials to be used in high efficiency (80-85%) direct carbon fuel cells (DCFC). This project addresses an important area in clean and efficient energy supply to meet the World's long-term energy and environmental requirements. Specifically, we aim to focus on the carbon particulates based on carbon black materials with a turbostratic st ....TAILORING OF CARBON MATERIALS FOR USE IN DIRECT CARBON FUEL CELLS. This project aims to develop a fundamental understanding of and methods for tailoring carbon materials to be used in high efficiency (80-85%) direct carbon fuel cells (DCFC). This project addresses an important area in clean and efficient energy supply to meet the World's long-term energy and environmental requirements. Specifically, we aim to focus on the carbon particulates based on carbon black materials with a turbostratic structure, and to investigate the relationship between the microstructures of synthetic carbon black materials and their efficacy in DCFC systems. Ultimately, we aim to engineer novel carbon particulates for use in DCFCs.Read moreRead less
Engineered functional metal silica membranes for hydrogen processing. This project focuses on hydrogen processing technologies for the petrochemical, agricultural and coal/energy industries. These sectors employ 110,000 people with annual combined revenues of $80 billion. Advanced technologies are vital for the competitiveness of the Australian economy, and to sustain Australia's social stability and economic growth.
Development of Superflux Carbon Nanotube Membranes for Gas Separation. The project seeks to develop gas separation membranes displaying superfluxes - throughputs 10 to 100 times higher than current systems, with lower operating costs. There is compelling evidence that very high flow rates are achievable and they have been shown for single gas transport. Theory predicts that highly selective separations are possible, but this has not yet been experimentally shown - a key outcome from this proje ....Development of Superflux Carbon Nanotube Membranes for Gas Separation. The project seeks to develop gas separation membranes displaying superfluxes - throughputs 10 to 100 times higher than current systems, with lower operating costs. There is compelling evidence that very high flow rates are achievable and they have been shown for single gas transport. Theory predicts that highly selective separations are possible, but this has not yet been experimentally shown - a key outcome from this project. The applications are widespread and include separation of carbon dioxide from power station flue gas for sequestration, purification of natural gas and provision of pure component gases such as oxygen and nitrogen amongst others.Read moreRead less
Conantokin selectivity for heteromeric N-methyl-D-aspartate (NMDA) receptors. NMDA receptors are ligand gated ion channels formed by heterogeneous population of subunits with distinct pharmacological and biophysical properties. The heterogeneic receptors are differentially expressed during development and play an important role in many physiological and pathological processes. Conantokins are toxins isolated from Conus venoms, which target NMDA receptor subunits with high affinity. The primary g ....Conantokin selectivity for heteromeric N-methyl-D-aspartate (NMDA) receptors. NMDA receptors are ligand gated ion channels formed by heterogeneous population of subunits with distinct pharmacological and biophysical properties. The heterogeneic receptors are differentially expressed during development and play an important role in many physiological and pathological processes. Conantokins are toxins isolated from Conus venoms, which target NMDA receptor subunits with high affinity. The primary goal of this study is to examine the effects of conantokins on the molecular properties of different NMDA receptor subtypes in vivo and in vitro.Read moreRead less
Methane Coupling Using Mixed Conducting Catalytic Ceramic Hollow Fibre Membrane Reactor. The Gas product industry is one of the most important economic sectors in Australia, employing 10000 people with market value of $ 100 billion per year from power generation and LNG export. However, there are increasing concerns over issues of the green house gases emission and petroleum dwindling. This project addresses the technology needs in converting natural gas to more useful chemicals via a more effic ....Methane Coupling Using Mixed Conducting Catalytic Ceramic Hollow Fibre Membrane Reactor. The Gas product industry is one of the most important economic sectors in Australia, employing 10000 people with market value of $ 100 billion per year from power generation and LNG export. However, there are increasing concerns over issues of the green house gases emission and petroleum dwindling. This project addresses the technology needs in converting natural gas to more useful chemicals via a more efficient and cleaner means of methane utilization. The project target is to make the natural gas resources in Australia to delivery high value products with considerable economic benefits and increased employment opportunities. Read moreRead less
Perovskite Asymmetric Hollow Fibres for Oxygen Separation in Clean Coal Energy Delivery. The coal industry is one of the most important economic sectors in Australia, employing 30000 people, whilst black coal is Australia's largest export worth around $24.5 billion. Energy security of supply is critical to Australia's social stability and economic growth, though Australia's reliance on coal for energy delivery is under strong scrutiny due to carbon mitigation. This project addresses the technolo ....Perovskite Asymmetric Hollow Fibres for Oxygen Separation in Clean Coal Energy Delivery. The coal industry is one of the most important economic sectors in Australia, employing 30000 people, whilst black coal is Australia's largest export worth around $24.5 billion. Energy security of supply is critical to Australia's social stability and economic growth, though Australia's reliance on coal for energy delivery is under strong scrutiny due to carbon mitigation. This project addresses the technology needs in tonnage oxygen separation towards a more efficient and cleaner means of generating energy. The project's benefits target at providing Australian consumers with affordable electricity in a decarbonised economy, enabling clean coal energy delivery to underpin the international competitiveness of the entire Australian economy.Read moreRead less
New approach to turbulent combustion modelling based on Multiple Mapping Conditioning. The project ensures that Australia remains at the front line of international development of new tools and approaches designed to model turbulent combustion. Improvements in modelling techniques will have a direct effect on optimisation of the industrial energy production from conventional sources and will assist in resolving the associated ecological issues. The project will also train several researches to b ....New approach to turbulent combustion modelling based on Multiple Mapping Conditioning. The project ensures that Australia remains at the front line of international development of new tools and approaches designed to model turbulent combustion. Improvements in modelling techniques will have a direct effect on optimisation of the industrial energy production from conventional sources and will assist in resolving the associated ecological issues. The project will also train several researches to be qualified to work at the frontiers of modern combustion modelling in gaseous flows.Read moreRead less
Charge-driven self-assembly of nanocomposites of ionic polymers and oxide nanoparticles. This project addresses the materials needs in platform technologies for more efficient and cleaner means of generating energy and utilising energy. It also aims at better catalysts for cleaner chemical processes. The novel nanocomposites with significantly increased active ionic sites and higher ionic conductivity, and better activity in catalysis will lead to possible new breakthroughs in technologies for e ....Charge-driven self-assembly of nanocomposites of ionic polymers and oxide nanoparticles. This project addresses the materials needs in platform technologies for more efficient and cleaner means of generating energy and utilising energy. It also aims at better catalysts for cleaner chemical processes. The novel nanocomposites with significantly increased active ionic sites and higher ionic conductivity, and better activity in catalysis will lead to possible new breakthroughs in technologies for energy, environmental and self-cleaning materials. The fabrication approach developed are also applicable to other functional nanomaterials, providing new opportunities for innovative nanotechnology to clearer and greener chemical and energy industries.
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