Group 13 Mixed Halide-Hydride and Rare Earth Complexes - New Selective Chiral Hydridic or Low Valent Reducing Agents. This project will make a landmark contribution to two areas of metallohydride chemistry. Both studies will utilise and develop metals that have traditionally been mined and exported from these shores while concurrently imported as value added products at vastly inflated cost. This research will identify knock-on applications in order to stem this financial bias. The new paths to ....Group 13 Mixed Halide-Hydride and Rare Earth Complexes - New Selective Chiral Hydridic or Low Valent Reducing Agents. This project will make a landmark contribution to two areas of metallohydride chemistry. Both studies will utilise and develop metals that have traditionally been mined and exported from these shores while concurrently imported as value added products at vastly inflated cost. This research will identify knock-on applications in order to stem this financial bias. The new paths to rare earth (= Ln) hydrides will have broad industrial appeal, particularly for new materials, where, like similar group 13 materials, they may be used in the deposition of Ln films or even as precursors to superconducting solids. It is anticipated industrial collaboration will ensue. Australia will be promoted as a developer and innovator of frontier technologies.Read moreRead less
The systematic development of fundamentally important group 15 compounds: their applications to innovative industrial and environmental processes. The strong coordinating ability of organo-phosphorus/arsonic acids will be harnessed to support a series of metallic clusters that will be exploited for their use as magnetic materials in gas storage and as catalysts. The novel acids will be investigated for use as water soluble purification agents for, for example, mercury, uranium and lead.
Switchable molecules for molecular nanoscience. This project targets the development and exploration of switchable molecules for future nanoscale devices. Applications will include individual molecules as: units of magnetic memory for high density data storage, quantum bits in quantum computers, components in electronic devices and switching units in display media.
New Methods to Harvest Light: Towards Better Dye-Sensitized Solar Cells. Dye-sensitized solar cell (DSC) technology has emerged as a complementary energy source to silicon photovoltaic technology. The efficiency of the DSC relies heavily on sensitizing molecules to absorb solar photons and then transfer electrons to a semi-conducting particle. This project will investigate new sensitizing methods using a combination of different dyes which work cooperatively to absorb a large part of the solar ....New Methods to Harvest Light: Towards Better Dye-Sensitized Solar Cells. Dye-sensitized solar cell (DSC) technology has emerged as a complementary energy source to silicon photovoltaic technology. The efficiency of the DSC relies heavily on sensitizing molecules to absorb solar photons and then transfer electrons to a semi-conducting particle. This project will investigate new sensitizing methods using a combination of different dyes which work cooperatively to absorb a large part of the solar spectrum and efficiently inject electrons into a semi-conducting particles. The development and understanding of these new methods to sensitize the dye-sensitized solar cell should lead to new and better solar cells.Read moreRead less
Bioinorganic chemistry between immune cell and pathogen. This project aims to investigate the bioinorganic chemistry that occurs when immune system cells encounter pathogens and they try to kill one another, or in the case of a pathogen, to also modify the genetics of the mammalian cell to enable its intracellular survival. Pathogenic bacteria and fungi accumulate chromium (Cr) in their membranes and it was recently discovered that Cr is likely to be an important virulence factor. Similarly, H ....Bioinorganic chemistry between immune cell and pathogen. This project aims to investigate the bioinorganic chemistry that occurs when immune system cells encounter pathogens and they try to kill one another, or in the case of a pathogen, to also modify the genetics of the mammalian cell to enable its intracellular survival. Pathogenic bacteria and fungi accumulate chromium (Cr) in their membranes and it was recently discovered that Cr is likely to be an important virulence factor. Similarly, Hyperaccummulation of Nickel (Ni) is also involved in virulence. The project will investigate the roles of Cr and Ni in virulence using advanced spectroscopic imaging and biochemical techniques. These insights will provide new knowledge on the innate immune system and may lead to more efficacious treatments for serious infections.Read moreRead less
Asymmetric Synthesis of Chiral Phosphines, Arsines, and Stibines. There are now chiral phosphine-transition metal catalysts that rival enzymes in their efficiency for the asymmetric synthesis of important chiral drugs, fragrants, cosmetics, nutrients, vitamins, and pesticides. This project is aimed at a generalised asymmetric synthesis of the critical components of these enzyme mimics, notably enantiopure chiral phosphines, but also chiral arsines and stibines, by a highly innovative approach t ....Asymmetric Synthesis of Chiral Phosphines, Arsines, and Stibines. There are now chiral phosphine-transition metal catalysts that rival enzymes in their efficiency for the asymmetric synthesis of important chiral drugs, fragrants, cosmetics, nutrients, vitamins, and pesticides. This project is aimed at a generalised asymmetric synthesis of the critical components of these enzyme mimics, notably enantiopure chiral phosphines, but also chiral arsines and stibines, by a highly innovative approach that involves novel six-electron phosphenium, arsenium, and stibinium cations that are themselves stabilised by chiral phosphines so that chemical breeder reactions are possible. The use of chiral auxiliaries from the natural pool and from biotechnology will also be investigated.Read moreRead less
Quantum-chemical design of stereoregular polyphosphines for nanowires. In this project we will be designing and producing stereoregular polyphosphines that can self-assemble gold and silver complexes that mimic the molecular architectures of DNA and certain proteins. The longer gold complexes will behave as insulated nanowires, and are an exciting prospect for the development of nanotechnological devices. The shorter silver and gold complexes are expected to have significant antitumour propertie ....Quantum-chemical design of stereoregular polyphosphines for nanowires. In this project we will be designing and producing stereoregular polyphosphines that can self-assemble gold and silver complexes that mimic the molecular architectures of DNA and certain proteins. The longer gold complexes will behave as insulated nanowires, and are an exciting prospect for the development of nanotechnological devices. The shorter silver and gold complexes are expected to have significant antitumour properties. This project, which will use a unique theoretical-experimental approach to design the stereoregular polyphosphines, will enhance Australia's international scientific reputation, and will contribute to technological advancement in the national priority areas of nanotechnology and biotechnology.Read moreRead less
Electrode-Supported Ionogels for Reversible Energy Storage. The project aims to generate an understanding of electrode-supported ionic liquid gel films to form the basis for the rational design and development of new energy storage technology. For the world to truly move into a new age of low carbon power, it needs transformational battery technology. The creation of novel ionic liquid systems to capture redox-active species would allow for revolutionary designs with the potential to eliminate m ....Electrode-Supported Ionogels for Reversible Energy Storage. The project aims to generate an understanding of electrode-supported ionic liquid gel films to form the basis for the rational design and development of new energy storage technology. For the world to truly move into a new age of low carbon power, it needs transformational battery technology. The creation of novel ionic liquid systems to capture redox-active species would allow for revolutionary designs with the potential to eliminate membranes, with major advantages for charging/discharging speed and deep cyclability. This would directly translate to storage systems that combine high power with high energy density.Read moreRead less
Selective photocatalytic lignin biomass conversion. If the prospective ‘hydrogen economy’ is to use hydrogen as a fuel and energy carrier to replace fossil sources, vast amounts of renewable cheap hydrogen must be available. A likely candidate is catalytic water splitting by sunlight. The hydrogen can be made affordable, by coupling hydrogen production to a higher value-added stream. The aim of this project is to produce a stable, hybrid heterogenous catalyst system able to oxidise organic subst ....Selective photocatalytic lignin biomass conversion. If the prospective ‘hydrogen economy’ is to use hydrogen as a fuel and energy carrier to replace fossil sources, vast amounts of renewable cheap hydrogen must be available. A likely candidate is catalytic water splitting by sunlight. The hydrogen can be made affordable, by coupling hydrogen production to a higher value-added stream. The aim of this project is to produce a stable, hybrid heterogenous catalyst system able to oxidise organic substrates derived from lignin biomass as an adjunct to visible light hydrogen generation from water. The significance will be to provide fuels and organic chemicals for industry from biomass, water and sunlight and catalytically remediate waste water with sunlight.Read moreRead less
NMR Studies of Second Generation Polynuclear Platinum Compounds. Cancer affects one in four Australians and 50% of cancer patients are treated with cisplatin. BBR3464 is a new type of platinum anticancer drug that has shown promise in clinical trials, including results in cancers that do not respond to cisplatin treatment. Second-generation analogues, now under development, may offer significant advantages. This international collaboration between Prof. Berners-Price and the inventor of these ne ....NMR Studies of Second Generation Polynuclear Platinum Compounds. Cancer affects one in four Australians and 50% of cancer patients are treated with cisplatin. BBR3464 is a new type of platinum anticancer drug that has shown promise in clinical trials, including results in cancers that do not respond to cisplatin treatment. Second-generation analogues, now under development, may offer significant advantages. This international collaboration between Prof. Berners-Price and the inventor of these new drugs puts Australian research at the forefront of the clinical development. There is the potential for the generation of new IP from new strategies in the design of improved anticancer drugs. The project builds strong international links and provides international training for Australian PhD students.Read moreRead less