Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668374
Funder
Australian Research Council
Funding Amount
$470,000.00
Summary
State-of-the-art NMR Facilities. This proposal will significantly enhance the NMR research capability and capacities at UoW and ANU. These schools have internationally recognised strengths in fundamentals of synthetic organic chemistry, therapeutic drug design and synthesis, protein chemistry and structural biology. This equipment will enhance the productivity of these researchers, increase their collaborative and scientific outputs and allow for training of students in the latest technologies ....State-of-the-art NMR Facilities. This proposal will significantly enhance the NMR research capability and capacities at UoW and ANU. These schools have internationally recognised strengths in fundamentals of synthetic organic chemistry, therapeutic drug design and synthesis, protein chemistry and structural biology. This equipment will enhance the productivity of these researchers, increase their collaborative and scientific outputs and allow for training of students in the latest technologies and importantly, contribute to Australia's development as a knowledge-based economy.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882576
Funder
Australian Research Council
Funding Amount
$588,000.00
Summary
Polymer Characterization Facility (PCF). Future development of macromolecular and biotechnologies have the potential to revolutionize everyday life. Current applications include plastics for engineering, diagnostic devices for biochemical analysis, polymer therapeutics for drug delivery and prosthesis with specific functions. The proposed facility will provide the analytical tools required to probe and develop advanced materials with application in medicine, agriculture, composites, cosmetics, ....Polymer Characterization Facility (PCF). Future development of macromolecular and biotechnologies have the potential to revolutionize everyday life. Current applications include plastics for engineering, diagnostic devices for biochemical analysis, polymer therapeutics for drug delivery and prosthesis with specific functions. The proposed facility will provide the analytical tools required to probe and develop advanced materials with application in medicine, agriculture, composites, cosmetics, communications and electronics.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346891
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Characterization facilities for new macromolecular architectures. The proposed facility is essential for characterization of the new polymeric architectures such as copolymers for tissue engineering, nanogels for automotive paints and biodegradable polymeric packaging. The facilities include characterizations of (1) molar mass and molecular sizes of novel polymer architectures (MU); (2) viscoelastic mechanical properties of tensile, bending, bulk and flow (RMIT); and (3) thermal properties of c ....Characterization facilities for new macromolecular architectures. The proposed facility is essential for characterization of the new polymeric architectures such as copolymers for tissue engineering, nanogels for automotive paints and biodegradable polymeric packaging. The facilities include characterizations of (1) molar mass and molecular sizes of novel polymer architectures (MU); (2) viscoelastic mechanical properties of tensile, bending, bulk and flow (RMIT); and (3) thermal properties of compositions (CSIRO). These new polymeric architectures cannot be sufficiently characterized by existing facilities. The success of the project will significantly enhance the new macromolecular research and facilitate collaborations. This project also falls within the nano and biomaterials of the Designated Priority area of Research.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237664
Funder
Australian Research Council
Funding Amount
$900,000.00
Summary
High Resolution Mass Spectrometer for (MS)n Chemical Characterisation. A Fourier transform ion cyclotron resonance ("FT-ICR") mass spectrometer equipped with electrospray ionisation (ESI) plus a "benchtop" matrix assisted laser desorption ionisation time of flight (MALDI-TOF) mass spectrometer are required to support the research of ca 28 research groups, including 44 postdoctoral fellows, and 138 honours and postgraduate students. By means of its high resolution and (MS)n capabilities, the FT- ....High Resolution Mass Spectrometer for (MS)n Chemical Characterisation. A Fourier transform ion cyclotron resonance ("FT-ICR") mass spectrometer equipped with electrospray ionisation (ESI) plus a "benchtop" matrix assisted laser desorption ionisation time of flight (MALDI-TOF) mass spectrometer are required to support the research of ca 28 research groups, including 44 postdoctoral fellows, and 138 honours and postgraduate students. By means of its high resolution and (MS)n capabilities, the FT-ICR-MS will provide key structural information on a wide range of synthetic and natural chemical substances, including sequence (e.g. peptides) and fragmentation patterns, while the MALDI-TOF instrument will be used primarily for high through-put proteomic analyses.Read moreRead less
Molecular Interactions of Chemical Agents with Ion-Channel Proteins. With a minimal number of functional units (proteins) viruses are able to replicate. All of these proteins are possible antiviral targets. In this project we wil1 focus on a short protein called Vpu found in membranes of the HIV-1 virus and aim to analyse the interaction of potential pore blocking compounds. It is essential to know exactly where they sit and how the overall structure of Vpu is affected. For this enterprise we wi ....Molecular Interactions of Chemical Agents with Ion-Channel Proteins. With a minimal number of functional units (proteins) viruses are able to replicate. All of these proteins are possible antiviral targets. In this project we wil1 focus on a short protein called Vpu found in membranes of the HIV-1 virus and aim to analyse the interaction of potential pore blocking compounds. It is essential to know exactly where they sit and how the overall structure of Vpu is affected. For this enterprise we will use nuclear magnetic resonance (NMR) spectroscopy. This information will serve as a springboard for future investigations of virus membrane proteins.
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New Polymers for Cellulose-based Bioplastics. We will design new cellulose derivatives by combining carefully engineered synthetic polymers to cellulose. We will explore the fundamental science underpinning the manufacture of these bioplastics, and apply the concept to the design of two new materials, with (super)hydrophobic and antibacterial properties. These materials have the potential to replace synthetic plastics, which comprise one of the major outputs of the chemical industry worldwide. P ....New Polymers for Cellulose-based Bioplastics. We will design new cellulose derivatives by combining carefully engineered synthetic polymers to cellulose. We will explore the fundamental science underpinning the manufacture of these bioplastics, and apply the concept to the design of two new materials, with (super)hydrophobic and antibacterial properties. These materials have the potential to replace synthetic plastics, which comprise one of the major outputs of the chemical industry worldwide. Plastic is present everywhere in human life, but its manufacture and disposal have a strong negative impact on the environment; the new materials manufactured in this project are viable alternatives to plastics, and are sustainable from a production and disposal point of view.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989541
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
High Field Solid State and Multinuclear NMR Spectrometer for Structure/Function Analysis of Materials. Projects requiring the proposed infrastructure are aligned with two of the National Research Priorities. The research will lead to the development of novel materials, polymers and drugs, in particular nanoporous molecular frameworks, as well as reactive catalysts. The understanding of protein structure, disease and metabolic pathways which will be established using the proposed equipment will c ....High Field Solid State and Multinuclear NMR Spectrometer for Structure/Function Analysis of Materials. Projects requiring the proposed infrastructure are aligned with two of the National Research Priorities. The research will lead to the development of novel materials, polymers and drugs, in particular nanoporous molecular frameworks, as well as reactive catalysts. The understanding of protein structure, disease and metabolic pathways which will be established using the proposed equipment will contribute to the priority area 'Promoting and Maintaining Good Health'. In addition, the new equipment will extend capabilities and postgraduate training in chemistry, nanotechnology, and biomedicine (the priority area of 'Frontier Technologies for Building and Transforming Australian Industries').Read moreRead less
Development of Optimised Processes for Manufacturing Melamine-Urea-Formaldehyde Type Resins, and Improved Resins and Reconstituted Wood Products Derived from Resins. Melamine-urea-formaldehyde resins are used to manufacture water-resistant particleboards, papers and laminates. This project is expected to provide more efficient processes for the industrial preparation of these resins, and improved resins and reconstituted wood products derived from the resins. Methods will be developed to assess ....Development of Optimised Processes for Manufacturing Melamine-Urea-Formaldehyde Type Resins, and Improved Resins and Reconstituted Wood Products Derived from Resins. Melamine-urea-formaldehyde resins are used to manufacture water-resistant particleboards, papers and laminates. This project is expected to provide more efficient processes for the industrial preparation of these resins, and improved resins and reconstituted wood products derived from the resins. Methods will be developed to assess the structure of the resins, in order to relate resin synthesis with structure and function, and therefore optimise performance as well as simplify the manufacturing process. Potential replacements for melamine will be prepared and evaluated. It is anticipated that these will confer particular properties on the resins and the wood products, such as strength and durability.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454209
Funder
Australian Research Council
Funding Amount
$126,326.00
Summary
A Glycobiology Facility for Glycoconjugate Analysis and Oligosaccharide Sequencing. The carbohydrate moiety of glycoconjugates plays an important role in their function and metabolism. Advances in glycan analytical and oligosaccharide sequencing techniques offer tremendous potential for the application of glycobiology to biotechnology, cell biology and medicine. This application aims to establish a Glycobiology Facility dedicated to glycoconjugate analysis and oligosaccharide sequencing. Funds a ....A Glycobiology Facility for Glycoconjugate Analysis and Oligosaccharide Sequencing. The carbohydrate moiety of glycoconjugates plays an important role in their function and metabolism. Advances in glycan analytical and oligosaccharide sequencing techniques offer tremendous potential for the application of glycobiology to biotechnology, cell biology and medicine. This application aims to establish a Glycobiology Facility dedicated to glycoconjugate analysis and oligosaccharide sequencing. Funds are requested for state of the art HPLC equipment, associated equipment and reagents for glycan purification/labelling, and a staff member, that are all essential to establish this technology in Australia. The Facility will support $25 million of existing research; approximately half of which is derived from ARC.Read moreRead less