Probing polynuclear platinum biomolecule interactions. 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 with the inventor of these new drugs puts Australian research at t ....Probing polynuclear platinum biomolecule interactions. 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 with 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
Investigating Energy Transfer Pathways in Lanthanoid Elements. This project aims to investigate fundamental aspects concerning the luminescent properties of compounds containing lanthanoid elements. These elements have extensive use in many high-tech applications, yet essential knowledge related to their properties is still quite limited. This project will elucidate in detail the origin of lanthanoid luminescence through a multidisciplinary approach combining synthetic chemistry and spectroscopy ....Investigating Energy Transfer Pathways in Lanthanoid Elements. This project aims to investigate fundamental aspects concerning the luminescent properties of compounds containing lanthanoid elements. These elements have extensive use in many high-tech applications, yet essential knowledge related to their properties is still quite limited. This project will elucidate in detail the origin of lanthanoid luminescence through a multidisciplinary approach combining synthetic chemistry and spectroscopy. The outcomes of this proposal will expand our limited knowledge in this field, underpinning the future development of novel materials for advanced applications. This will lead to significant economic benefit in Australia as new commercial applications relying on lanthanoid luminescence will be developed.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
Gold-based mitochondria targeted chemotherapeutics: mechanistic studies probing interactions with thiol and selenol containing proteins. Cancer affects one in four Australians and prostate cancer is the most commonly diagnosed and second leading cause of male cancer deaths, for which there is currently no effective treatment. Current chemotherapeutics must overcome drug resistance and lack of selectivity between tumour and normal cells. To circumvent these problems we are investigating gold-base ....Gold-based mitochondria targeted chemotherapeutics: mechanistic studies probing interactions with thiol and selenol containing proteins. Cancer affects one in four Australians and prostate cancer is the most commonly diagnosed and second leading cause of male cancer deaths, for which there is currently no effective treatment. Current chemotherapeutics must overcome drug resistance and lack of selectivity between tumour and normal cells. To circumvent these problems we are investigating gold-based compounds, which act by a novel mechanism. The research will lead to new strategies in the design of improved anticancer drugs, an important Australian research priority that will promote and maintain good health. Other benefits arise from training PhD students with interdisciplinary skills for Australian biotechnology industries.Read moreRead less
Pathways for performance improvements of organic light emitting diodes . Organic light-emitting diodes (OLEDs) represent the next generation technology for displays and lighting. Despite their rapid uptake, one of the factors limiting their application in lighting is the efficiency roll-off at high brightness. This project aims to work towards solutions for this problem using an innovative combination of simulation studies and experimental work. Expected outcomes include improved theoretical and ....Pathways for performance improvements of organic light emitting diodes . Organic light-emitting diodes (OLEDs) represent the next generation technology for displays and lighting. Despite their rapid uptake, one of the factors limiting their application in lighting is the efficiency roll-off at high brightness. This project aims to work towards solutions for this problem using an innovative combination of simulation studies and experimental work. Expected outcomes include improved theoretical and experimental approaches leading to new design rules for OLEDs. This should provide significant benefits such as a pathway for development of improved efficient, high brightness OLEDs for applications in low energy consumption lighting and long-lasting, bright displays.Read moreRead less
Calibration Free Coulometric Sensors Based on Polymeric Thin Layer Films. The world faces enormous environmental and clinical challenges that require accurate data from remote deployable and disposable sensors. Many key parameters important to global warming (carbon dioxide cycle) and clinical diagnostics (blood electrolytes) may be assessed with a polymeric membrane sensing technology, but the measurement principle is not sufficiently robust for remote sensing applications. This research will m ....Calibration Free Coulometric Sensors Based on Polymeric Thin Layer Films. The world faces enormous environmental and clinical challenges that require accurate data from remote deployable and disposable sensors. Many key parameters important to global warming (carbon dioxide cycle) and clinical diagnostics (blood electrolytes) may be assessed with a polymeric membrane sensing technology, but the measurement principle is not sufficiently robust for remote sensing applications. This research will make this possible by adapting calibration free measurement principles (coulometry, or charge counting) to this class of sensors, where a thin layer of sample solution will be depleted by instrumental control. This forms the scientific basis for successfully tackling the measurement challenges of the future.Read moreRead less
Illuminating hidden processes in emissive lanthanoid complexes. This project aims to understand the antenna effect used to sensitise lanthanoid luminescence. Despite their use in modern high-tech applications, from optical fibre amplifiers (telecommunications) to luminescent probes and sensors (biological imaging), understanding is largely based on speculation or generalised 'rules-of-thumb', severely limiting progress in the field. This project will research these processes, using chemical synt ....Illuminating hidden processes in emissive lanthanoid complexes. This project aims to understand the antenna effect used to sensitise lanthanoid luminescence. Despite their use in modern high-tech applications, from optical fibre amplifiers (telecommunications) to luminescent probes and sensors (biological imaging), understanding is largely based on speculation or generalised 'rules-of-thumb', severely limiting progress in the field. This project will research these processes, using chemical synthesis, theory and spectroscopic techniques. This is expected to lead to new emissive lanthanoid-based compounds using 'a priori' approaches, with better performance than current gold standards and references. Intellectual property created will lead to new commercial products, and to creation of new Australian based spin-off/start-up companies.Read moreRead less
New mesoporous materials for use in high temperature proton exchange fuel cell membranes. A novel high temperature proton exchange membrane based on heteropolyacid (HPA) functionalised mesoporous silica will be developed. This research into the fundamental materials science of novel proton exchange membranes is expected to impact significantly on the advancement and commercialisation of portable fuel cell devices.