Supramolecular assembly in photovoltaic electrode design: Studies of ordered porphyrin/acceptor complexes on polythiophene electrodes. This research outlines an improved way to develop dye-sensitised photovoltaic solar cells for the conversion of sunlight into electricity, by increasing the molecular order of the cell components using host, guest interrelationships. As such, it addresses a problem of international concern 'How to reduce greenhouse gas emissions and stop global warming?' since s ....Supramolecular assembly in photovoltaic electrode design: Studies of ordered porphyrin/acceptor complexes on polythiophene electrodes. This research outlines an improved way to develop dye-sensitised photovoltaic solar cells for the conversion of sunlight into electricity, by increasing the molecular order of the cell components using host, guest interrelationships. As such, it addresses a problem of international concern 'How to reduce greenhouse gas emissions and stop global warming?' since solar cells do not produce carbon dioxide. To achieve our goals we draw on the skills of a team of experts from Australia (synthetic organic chemists), New Zealand (polymer and surface chemists) and Italy (photochemist and photophysicist). Such research is very appropriate for regional Australia, especially Central Queensland.Read moreRead less
Engineering floating liquid marbles for three-dimensional cell cultures. This project aims to understand the physics of three-dimensional cell cultures in a liquid marble floating on a liquid free surface. New methodology developed can produce these cell cultures without using matrices or scaffolds and with run-times well beyond existing technologies. This methodology closely mimics a normal in-vivo environment and produces spheroids needed in cell transplantation therapies. This project will re ....Engineering floating liquid marbles for three-dimensional cell cultures. This project aims to understand the physics of three-dimensional cell cultures in a liquid marble floating on a liquid free surface. New methodology developed can produce these cell cultures without using matrices or scaffolds and with run-times well beyond existing technologies. This methodology closely mimics a normal in-vivo environment and produces spheroids needed in cell transplantation therapies. This project will resolve uncertainties in the underlying phenomena. The expected outcome should support future high quality cell cultures suitable for transplantation therapies.Read moreRead less
Interfacial engineering of multilayered metal organic framework membranes . Metal-organic frameworks are a popular class of microporous materials with tunable structural properties and functionalities. This project aims to investigate the designed synthesis of thin, hierarchically structured films of this material on membranes, which displays extraordinary ion selectivity and ion rectification properties. A better understanding of the interfacial properties will be gained through advanced charac ....Interfacial engineering of multilayered metal organic framework membranes . Metal-organic frameworks are a popular class of microporous materials with tunable structural properties and functionalities. This project aims to investigate the designed synthesis of thin, hierarchically structured films of this material on membranes, which displays extraordinary ion selectivity and ion rectification properties. A better understanding of the interfacial properties will be gained through advanced characterisation, and with proper design and tuning of the film, will ultimately lead to the development of high performing ion-selective membranes that will be applied for energy storage and separation applications. This project is expected to benefit Australia’s renewable energy and resource sectors.Read moreRead less
Bio-inspired Nanoparticles for Mechano-Regulation of Stem Cell Fate. Mechanical stimulation plays a critical role in regulating stem cell fate. Nanostructure-mediated mechanical cues can precisely stimulate stem cells, but predicting their impact on stem cell differentiation is challenging. This project aims to engineer nanostructures to regulate stem cell fate and gain a fundamental understanding of the mechanical properties that affect cell function. The expected outcomes and benefits of this ....Bio-inspired Nanoparticles for Mechano-Regulation of Stem Cell Fate. Mechanical stimulation plays a critical role in regulating stem cell fate. Nanostructure-mediated mechanical cues can precisely stimulate stem cells, but predicting their impact on stem cell differentiation is challenging. This project aims to engineer nanostructures to regulate stem cell fate and gain a fundamental understanding of the mechanical properties that affect cell function. The expected outcomes and benefits of this project include a new fundamental understanding of the effect of mechanical properties on cell function, novel insights into the regulation of stem cell fate, and the development of a new class of roughness-tunable materials suitable for use in tissue engineering and pharmaceutical applications. Read moreRead less
Unravelling the history of nitrogen cycling within the central Great Barrier Reef. This project aims to use coral skeleton geochemical analysis to establish if, when, and how nitrogen cycling changed along the central inshore region of the Great Barrier Reef (GBR) lagoon. Increasing anthropogenic nitrogen discharge to coastal waters could drive ecosystem decline in the GBR, one of Australia’s most sensitive and economically valuable natural environments. However, the full effect of anthropogenic ....Unravelling the history of nitrogen cycling within the central Great Barrier Reef. This project aims to use coral skeleton geochemical analysis to establish if, when, and how nitrogen cycling changed along the central inshore region of the Great Barrier Reef (GBR) lagoon. Increasing anthropogenic nitrogen discharge to coastal waters could drive ecosystem decline in the GBR, one of Australia’s most sensitive and economically valuable natural environments. However, the full effect of anthropogenic nitrogen is unclear due to a lack of long, continuous records. This project will unravel the history of nitrogen cycling in the GBR since the mid-1800s, knowledge crucial for managing this reef system.Read moreRead less
Design and Development of HIV-1 Integrase Inhibitors Based on a Natural Product Lead. HIV/AIDS is a significant health problem with over 40 million people infected with HIV worldwide. Resistance to current drugs is rising rapidly and new therapeutics are urgently needed. This project will bring together local expertise in organic synthesis and virology in order to develop new and better treatments for HIV/AIDS. Ultimately, Australians with HIV may benefit directly from anti-HIV compounds produce ....Design and Development of HIV-1 Integrase Inhibitors Based on a Natural Product Lead. HIV/AIDS is a significant health problem with over 40 million people infected with HIV worldwide. Resistance to current drugs is rising rapidly and new therapeutics are urgently needed. This project will bring together local expertise in organic synthesis and virology in order to develop new and better treatments for HIV/AIDS. Ultimately, Australians with HIV may benefit directly from anti-HIV compounds produced and may also benefit from advances in our understanding of this elusive virus resulting from the project.Read moreRead less
Anti-Cancer Natural Products: Total Synthesis and Biological Evaluation of Lasonolide A and Analogues. One in three men and one in four women in Australia will be diagnosed with cancer before they reach 75. Cancer is a leading cause of death within this country with 28% of deaths each year due to this disease. Although there have been advances in the treatment of various forms of cancer there remains a pressing need for new therapies with improved potency, selectivity and reduced side effects. T ....Anti-Cancer Natural Products: Total Synthesis and Biological Evaluation of Lasonolide A and Analogues. One in three men and one in four women in Australia will be diagnosed with cancer before they reach 75. Cancer is a leading cause of death within this country with 28% of deaths each year due to this disease. Although there have been advances in the treatment of various forms of cancer there remains a pressing need for new therapies with improved potency, selectivity and reduced side effects. This project will provide new compounds of potential clinical use in the treatment of cancer, thereby aiding the large population of Australians who will be affected by this disease. Furthermore, the new advanced materials produced by this project will aid in the study of biochemical processes involved in cancer.Read moreRead less
Dinuclear Ruthenium Complexes as Sequence- and Structure-Selective Binding Agents for DNA. Studies of the interaction of mononuclear metal complexes with DNA have greatly increased our understanding of the ways that small molecules recognise particular sites on DNA. However, in order to design drugs that target specific genes, and hence be potentially capable of controlling gene expression, it is necessary to study the binding of metal complexes that can associate with larger segments of DNA. ....Dinuclear Ruthenium Complexes as Sequence- and Structure-Selective Binding Agents for DNA. Studies of the interaction of mononuclear metal complexes with DNA have greatly increased our understanding of the ways that small molecules recognise particular sites on DNA. However, in order to design drugs that target specific genes, and hence be potentially capable of controlling gene expression, it is necessary to study the binding of metal complexes that can associate with larger segments of DNA. Using the combined expertise of the applicants, it is proposed to stereospecifically synthesise dinuclear complexes and study their DNA binding. This will greatly assist in the development of drugs that can selectively target genes and altered DNA.Read moreRead less
Mechanistic Studies of Dimethylsulfide Dehydrogenase: A Novel Bacterial Molybdoenzyme. The aim of this proposal is to use electrochemical, spectroscopic and molecular biological techniques to understand the mechanism of action of the enzyme dimethylsulfide dehydrogenase. This enzyme is representative of an major group of molybdenum-containing enzymes that have importance in microbial biotransformations. The project will provide fundamental information about a multi-redox centre protein that has ....Mechanistic Studies of Dimethylsulfide Dehydrogenase: A Novel Bacterial Molybdoenzyme. The aim of this proposal is to use electrochemical, spectroscopic and molecular biological techniques to understand the mechanism of action of the enzyme dimethylsulfide dehydrogenase. This enzyme is representative of an major group of molybdenum-containing enzymes that have importance in microbial biotransformations. The project will provide fundamental information about a multi-redox centre protein that has potential application in biosensors and biocatalysis.Read moreRead less
Trapping and Watching Biomolecular Complexes near Nanopores. This project aims to develop a technology to trap and interrogate nanosized molecular complexes in their natural state. Nanosized complexes in water provide the core machinery of biological systems and require detailed understanding to help unravel fundamental biological mechanisms. A prototype of a methodology has been developed to trap and interrogate nanoscaled objects as small as 190 nanometres within a nanopore device. By performi ....Trapping and Watching Biomolecular Complexes near Nanopores. This project aims to develop a technology to trap and interrogate nanosized molecular complexes in their natural state. Nanosized complexes in water provide the core machinery of biological systems and require detailed understanding to help unravel fundamental biological mechanisms. A prototype of a methodology has been developed to trap and interrogate nanoscaled objects as small as 190 nanometres within a nanopore device. By performing research to fully understand, miniaturise and develop this method further, this project aims to enable the quantitative observation of nanoscaled biological machinery involved in cell-to-cell communication and DNA unfolding. Such a technology platform may have applications in areas such as biology, biotechnology and advanced materials.Read moreRead less