Cation Ordering - A Strategy to Prepare Multiferroic Oxides. This project will produce new families of functional metal oxides with technologically relevant properties, especially multiferroic behavior. Such materials are highly sort-after in the rapidly emerging field of spintronics. Through comprehensive experimental studies of a number of such materials this project will enhance the ability of industry to develop new and improved materials.
Development of metal probes for the selective recognition of DNA. Transition metal complexes with large aromatic ligands have recently been shown to bind DNA by intercalation. However, controversy continues over their base sequence and groove selectivity. We will synthesise a range of chiral metal complexes and screen these against combinatorial oligonucleotide libraries to determine their base sequence selectivity. The information obtained will help us design better intercalators that can be us ....Development of metal probes for the selective recognition of DNA. Transition metal complexes with large aromatic ligands have recently been shown to bind DNA by intercalation. However, controversy continues over their base sequence and groove selectivity. We will synthesise a range of chiral metal complexes and screen these against combinatorial oligonucleotide libraries to determine their base sequence selectivity. The information obtained will help us design better intercalators that can be used as sensitive molecular probes and may find application as antitumour drugs. Binding interaction between the complex and DNA will be studied by NMR spectroscopy.Read moreRead less
Control of the Enantiomeric Self-Resolution Process. The availability of enantiopure molecules is crucial in chemistry and medicine. Enantiomeric self-resolution on crystallisation provides pure left- and right-handed molecules from 1:1 mixtures of the two. It is the simplest and cheapest means of obtaining enantiopure molecules, but its occurrence in any given case cannot normally be
predicted. The understanding and control of the self-resolution process gained through this project will repre ....Control of the Enantiomeric Self-Resolution Process. The availability of enantiopure molecules is crucial in chemistry and medicine. Enantiomeric self-resolution on crystallisation provides pure left- and right-handed molecules from 1:1 mixtures of the two. It is the simplest and cheapest means of obtaining enantiopure molecules, but its occurrence in any given case cannot normally be
predicted. The understanding and control of the self-resolution process gained through this project will represent a major breakthrough in organic and pharmaceutical chemistry. This technological advance will make pure handed molecules available readily and cheaply, thereby allowing chemical, pharmaceutical and biological developments to be made by Australian industry.
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Molecular Framework Materials: Nanoporosity and Anomalous Thermal Expansion. The design and construction of advanced nanomaterials represents both a key area of fundamental research and a critical step in the push towards smarter and more efficient high-level technologies. Here we explore the strategic assembly of molecular materials that have entirely new and highly useful properties, namely, nanoporosity and anomalous thermal expansion. This innovative work will lead to important fundamental ....Molecular Framework Materials: Nanoporosity and Anomalous Thermal Expansion. The design and construction of advanced nanomaterials represents both a key area of fundamental research and a critical step in the push towards smarter and more efficient high-level technologies. Here we explore the strategic assembly of molecular materials that have entirely new and highly useful properties, namely, nanoporosity and anomalous thermal expansion. This innovative work will lead to important fundamental advances in nanoscience and will forge deep understandings of how materials properties relate to nanoscale structure. These advances will spur a wide range of important new technologies, with application of the materials in molecular separations and sensing, clean energy storage, electronics and photonics.Read moreRead less
Advanced Molecular Nanomaterials. The design and construction of advanced nanomaterials is a key step in the push towards smarter and more efficient high-level technologies. Here we mount a major research program into the strategic assembly of molecular nanomaterials that have entirely new and highly useful properties. This innovative work will lead to important fundamental advances in nanoscience and will forge deep understandings of how materials properties relate to nanoscale structure. Th ....Advanced Molecular Nanomaterials. The design and construction of advanced nanomaterials is a key step in the push towards smarter and more efficient high-level technologies. Here we mount a major research program into the strategic assembly of molecular nanomaterials that have entirely new and highly useful properties. This innovative work will lead to important fundamental advances in nanoscience and will forge deep understandings of how materials properties relate to nanoscale structure. These advances will spur a wide range of important new technologies, with application of the materials in electronics, photonics, molecular sensing, drug synthesis and purification, clean energy and the controlled release of agrochemicals and pharmaceuticals.Read moreRead less
Experimental Electron Densities, Crystal Engineering and Molecular Recognition: A Supramolecular Approach to Drug Design. GABA receptors are important therapeutic targets for the treatment of a number of disorders from memory dysfunction, to muscle spasticity and chronic pain. This project is designed to address some of the fundamental questions associated with drug/target interactions. This work will lead to a greater understanding of how the chemical structure of a drug can be tailored to prod ....Experimental Electron Densities, Crystal Engineering and Molecular Recognition: A Supramolecular Approach to Drug Design. GABA receptors are important therapeutic targets for the treatment of a number of disorders from memory dysfunction, to muscle spasticity and chronic pain. This project is designed to address some of the fundamental questions associated with drug/target interactions. This work will lead to a greater understanding of how the chemical structure of a drug can be tailored to produce a more effective compound. The outcomes of this program will highlight Australia as a strong contributing nation in molecular design. It is certain that the outcomes of this program will benefit Australia by providing a much greater level of understanding of the fundamental properties of molecules and how others may be rationally designed to suit a specific role.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775676
Funder
Australian Research Council
Funding Amount
$290,000.00
Summary
An X-ray Diffraction Facility for Molecular Structure Determination. Characterisation of new chemical compounds demands proof of molecular structure. Whether for the identification of a new drug candidate, a material with novel properties or in the exploration of previously unknown types of compounds, X-ray crystallography is the definitive technique for this purpose. This proposal is for an X-ray diffractometer that will significantly enhance the capabilities of all synthetic and natural produc ....An X-ray Diffraction Facility for Molecular Structure Determination. Characterisation of new chemical compounds demands proof of molecular structure. Whether for the identification of a new drug candidate, a material with novel properties or in the exploration of previously unknown types of compounds, X-ray crystallography is the definitive technique for this purpose. This proposal is for an X-ray diffractometer that will significantly enhance the capabilities of all synthetic and natural products chemistry research programs undertaken at the Universities of Queensland and Newcastle, all currently in receipt of ARC funding. This research is aligned with the ARC National Research Priorities, of Promoting and Maintaining Good Health and Frontier Technologies for Building and Transforming Australian Industries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346733
Funder
Australian Research Council
Funding Amount
$399,466.00
Summary
Ultra-Sensitive CCD Diffractometer with High Intensity X-ray Photon Generator. X-ray photon diffraction from single crystals provides the most accurate, precise and detailed three dimensional chemical structure information. It is however often difficult to obtain crystals of complex chemical assemblies, such as those used in nanotechnology and photon technology, suitable for diffraction analysis using equipment currently available at Australian chemical crystal structure facilities. The collab ....Ultra-Sensitive CCD Diffractometer with High Intensity X-ray Photon Generator. X-ray photon diffraction from single crystals provides the most accurate, precise and detailed three dimensional chemical structure information. It is however often difficult to obtain crystals of complex chemical assemblies, such as those used in nanotechnology and photon technology, suitable for diffraction analysis using equipment currently available at Australian chemical crystal structure facilities. The collaborating institutions seek to overcome this problem by purchasing a high sensitivity CCD area detector coupled to an intense laboratory source of X-ray photons. The installation of the equipment would be the first of its kind at an Australian facility and only the fourth worldwide.Read moreRead less
Thin Films of Oxide Ceramics. Aluminium oxide films are used extensively in the Australian industries of Protective & Decorative Coatings (examples include door-knobs and cutting-tools). The industry will be offered a remarkably simple process for preparation of high quality films. In the microelectronic industry, the uses of aluminium oxide films as a dielectric alternative to silicon dioxide has just started to emerge world - wide and this new process would make a dramatic impact with commerci ....Thin Films of Oxide Ceramics. Aluminium oxide films are used extensively in the Australian industries of Protective & Decorative Coatings (examples include door-knobs and cutting-tools). The industry will be offered a remarkably simple process for preparation of high quality films. In the microelectronic industry, the uses of aluminium oxide films as a dielectric alternative to silicon dioxide has just started to emerge world - wide and this new process would make a dramatic impact with commercial benefits for Australia. Read moreRead less
Advanced Functional Properties in Coordination Framework Materials. The design and construction of advanced nanomaterials represents both a key area of fundamental research and a critical step in the push towards smarter and more efficient high-level technologies. Here we explore the strategic synthesis of molecular materials that have entirely new and highly useful properties, namely, nanoporosity and negative thermal expansion. This innovative work will lead to important fundamental advances ....Advanced Functional Properties in Coordination Framework Materials. The design and construction of advanced nanomaterials represents both a key area of fundamental research and a critical step in the push towards smarter and more efficient high-level technologies. Here we explore the strategic synthesis of molecular materials that have entirely new and highly useful properties, namely, nanoporosity and negative thermal expansion. This innovative work will lead to important fundamental advances in nanoscience and will forge deep understandings of how physical properties relate to nanoscale structure. These advances will spur a wide range of important new technologies, with future application of the materials in molecular separations, sensing, energy conversion, electronics and photonics.Read moreRead less