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Targeted enzymatic treatment of the injured central nervous system using innovative nanotechnology. Nanotechnology and other frontier areas in science have exciting potential to solve major challenges of the 21st century, including health. The proposed research provides the real possibility of discovering ways to alleviate the many complex problems associated with neurotrauma following, for example, brain and spinal cord injury. Current delivery of therapeutics do not work effectively and new ap ....Targeted enzymatic treatment of the injured central nervous system using innovative nanotechnology. Nanotechnology and other frontier areas in science have exciting potential to solve major challenges of the 21st century, including health. The proposed research provides the real possibility of discovering ways to alleviate the many complex problems associated with neurotrauma following, for example, brain and spinal cord injury. Current delivery of therapeutics do not work effectively and new approaches are urgently needed. The recently established powerful multidisciplinary research team combines expertise in nanotechnology, glycobiology and neuroscience to develop novel, safe ways to deliver therapeutic enzymes over biological time-courses. We aim to make broken connections work again, while providing quality research training.Read moreRead less
Crowns, cages and cavities: Insights into host-guest chemistry from experimental charge density analysis of supramolecular crystals. Supramolecular systems - molecular aggregates - underpin the design and development of materials for a vast number of potential applications, in areas as diverse as catalysis, targeted drug delivery, gas storage, chemical separation, electro-optics and nonlinear optics. They also serve as models for complex phenomena such as self-assembly and ligand-receptor bindin ....Crowns, cages and cavities: Insights into host-guest chemistry from experimental charge density analysis of supramolecular crystals. Supramolecular systems - molecular aggregates - underpin the design and development of materials for a vast number of potential applications, in areas as diverse as catalysis, targeted drug delivery, gas storage, chemical separation, electro-optics and nonlinear optics. They also serve as models for complex phenomena such as self-assembly and ligand-receptor binding. Outcomes will impact on several of the nation's articulated research priorities and, through involvement of postdoctoral fellows and postgraduate students in an international collaboration of this nature, the project contributes directly to producing graduates and researchers familiar with state-of-the-art experimental facilities, both within Australia and overseas.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989374
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
South Australian High-Resolution and Ion-Mobility Mass Spectrometry Facility. The analytical facility will enhance (i) fundamental research to understand the mechanisms of the reactions of charged species with neutral molecules, and (ii) the provision of structural information, including the precise atomic composition of any molecule, small or large. Research supported by this facility includes (a)nanotechnology, including supramolecular chemistry, (b) bioscience: cancer research, neurodegenera ....South Australian High-Resolution and Ion-Mobility Mass Spectrometry Facility. The analytical facility will enhance (i) fundamental research to understand the mechanisms of the reactions of charged species with neutral molecules, and (ii) the provision of structural information, including the precise atomic composition of any molecule, small or large. Research supported by this facility includes (a)nanotechnology, including supramolecular chemistry, (b) bioscience: cancer research, neurodegenerate diseases (e.g. Parkinson's disease) osteoarthritis, inflammation, cardiac diseases and synthetic approaches to anticancer and other drugs.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775551
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
Integrated Advanced X-ray Diffraction Facility. The new equipment will provide a unique facility for single crystal, powder and thin film structure elucidation using X-ray diffraction techniques. No other techniques have the capabilities in structure determination of materials at an atomic level which are necessary for delivering applications in nano-technology, health care products, amongst many fields, for the benefit for the community at large. The facility will foster a more innovative resea ....Integrated Advanced X-ray Diffraction Facility. The new equipment will provide a unique facility for single crystal, powder and thin film structure elucidation using X-ray diffraction techniques. No other techniques have the capabilities in structure determination of materials at an atomic level which are necessary for delivering applications in nano-technology, health care products, amongst many fields, for the benefit for the community at large. The facility will foster a more innovative research culture and provide excellent research training at the highest international level, and will provide a platform to maximise access to the new Opal Research Reactor and Australian Synchrotron.Read moreRead less
Voids in molecular crystals: Novel computational approaches to their characterization, physicochemical nature, and influence on bulk properties. Key to the research objectives is further development of our own innovative software and techniques, now used by hundreds of researchers worldwide for the visualization and exploration of the structure and properties of molecular crystals. Through involvement of postdoctoral fellows and PhD students in an international collaborative research program inv ....Voids in molecular crystals: Novel computational approaches to their characterization, physicochemical nature, and influence on bulk properties. Key to the research objectives is further development of our own innovative software and techniques, now used by hundreds of researchers worldwide for the visualization and exploration of the structure and properties of molecular crystals. Through involvement of postdoctoral fellows and PhD students in an international collaborative research program involving a synergy between software development and visualization, and sophisticated modelling of the detailed nature of molecular crystals, the project contributes directly to producing researchers familiar with state-of-the-art theoretical and computational techniques, and well equipped to match the needs of one of the nation's articulated research priorities.Read moreRead less
Confinement of space based on association of water soluble container molecules. The proposed research addresses the use of water soluble bowl shaped molecules or ions (cavitands) in conjunction with metal ions and crown ether and related cryptand molecules to form molecular capsules, two or more of the components being pre-programmed to assemble thus. The new materials will be unique in supramolecular chemistry, with the associated architectures bearing on materials science, molecular electronic ....Confinement of space based on association of water soluble container molecules. The proposed research addresses the use of water soluble bowl shaped molecules or ions (cavitands) in conjunction with metal ions and crown ether and related cryptand molecules to form molecular capsules, two or more of the components being pre-programmed to assemble thus. The new materials will be unique in supramolecular chemistry, with the associated architectures bearing on materials science, molecular electronics, separation sciences, and drug delivery. The new range of water soluble container molecules that will become accessible as part of this proposal, promises new applications in these areas.Read moreRead less