Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775481
Funder
Australian Research Council
Funding Amount
$304,000.00
Summary
X-ray Molecular Structure Elucidation Facility (MSEF). X-ray diffraction plays a key role in identification and molecular characterization. X-ray techniques are the single most widely used analytical resource in structure determination and provide invaluable information for scientists working in the fields of synthesis, nanotechnology, polymer chemistry, and protein chemistry amongst many others. The facility brings together a multidisciplinary team of scientists and provides state-of-the-art re ....X-ray Molecular Structure Elucidation Facility (MSEF). X-ray diffraction plays a key role in identification and molecular characterization. X-ray techniques are the single most widely used analytical resource in structure determination and provide invaluable information for scientists working in the fields of synthesis, nanotechnology, polymer chemistry, and protein chemistry amongst many others. The facility brings together a multidisciplinary team of scientists and provides state-of-the-art research and training facilities.Read moreRead less
Establishing In-Depth Understanding of Molecular Degradation Processes in Acrylic Based Polymer Coil-Coatings for Domestic Roofing Applications. The national benefit is multipronged: (i) BlueScope Steel will maintain its technology leadership through continued innovation by taking advantage of the scientific insights that the project delivers for the introduction of next generation long lasting coil coatings for steel, based on an environmentally friendly production processes. (ii) The applicati ....Establishing In-Depth Understanding of Molecular Degradation Processes in Acrylic Based Polymer Coil-Coatings for Domestic Roofing Applications. The national benefit is multipronged: (i) BlueScope Steel will maintain its technology leadership through continued innovation by taking advantage of the scientific insights that the project delivers for the introduction of next generation long lasting coil coatings for steel, based on an environmentally friendly production processes. (ii) The application of mass spectrometry for the analysis of polymer degradation has been pioneered by the CI and BlueScope Steel. The project will demonstrate the power of this technique and secure Australia's place at the forefront of molecular polymer degradation research. (iii) The project has a strong educational component, training a PhD student at the interface of application and fundamental research.Read moreRead less
Fundamentals of the Performance Chemistry of Water-borne Acrylic Polymer based Surface Coatings for Pre-painted Steel Employed in Domestic Roofing Applications. The proposed project will systematically investigate the structure-performance relationships of acrylic emulsion based surface coatings and provide a detailed understanding of their degradation mechanisms. The improved understanding of these coatings will lead to the development of an optimum coating for steel roofs with extremely high d ....Fundamentals of the Performance Chemistry of Water-borne Acrylic Polymer based Surface Coatings for Pre-painted Steel Employed in Domestic Roofing Applications. The proposed project will systematically investigate the structure-performance relationships of acrylic emulsion based surface coatings and provide a detailed understanding of their degradation mechanisms. The improved understanding of these coatings will lead to the development of an optimum coating for steel roofs with extremely high durability and resistance against degradation and gloss loss in typical tropical and sub-tropical Australian climates.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
Macromolecular Self-Assembly of Amyloid Fibrils. The misfolding of proteins is a key issue in public health. Common diseases, such as Alzheimer's disease, type 2 diabetes, and heart disease are associated with protein misfolding, and have a major impact on society. The use of proteins as therapeutic drugs is now common ( e.g. as vaccines, for immune disorders) but they can be rendered ineffective or harmful by protein misfolding. Through this project, we will enhance the fundamental understandin ....Macromolecular Self-Assembly of Amyloid Fibrils. The misfolding of proteins is a key issue in public health. Common diseases, such as Alzheimer's disease, type 2 diabetes, and heart disease are associated with protein misfolding, and have a major impact on society. The use of proteins as therapeutic drugs is now common ( e.g. as vaccines, for immune disorders) but they can be rendered ineffective or harmful by protein misfolding. Through this project, we will enhance the fundamental understanding of the processes of protein assembly in solution, at solid surfaces, and under shear.
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Interfacial Studies of Nanoparticulate Dendrimers for Improved BioPharmaceutical Application. Dendrimers are a novel class of nanoparticles with exciting potential as pharmaceuticals for the prevention of major disease states, e.g. viral and cancer. A colloid and interfacial chemistry approach will be employed to develop an understanding of the mechanisms for the solution to cell transport processes and for optimisation of formulation strategies for delivery vehicles. Significant advances in t ....Interfacial Studies of Nanoparticulate Dendrimers for Improved BioPharmaceutical Application. Dendrimers are a novel class of nanoparticles with exciting potential as pharmaceuticals for the prevention of major disease states, e.g. viral and cancer. A colloid and interfacial chemistry approach will be employed to develop an understanding of the mechanisms for the solution to cell transport processes and for optimisation of formulation strategies for delivery vehicles. Significant advances in the development of novel pharmaceutical products will result, with significant social and economic benefits nationally and internationally.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453743
Funder
Australian Research Council
Funding Amount
$237,654.00
Summary
Advanced Materials Laser Characterisation Facility. A networked laser facility spanning the University of Melbourne, Monash University, the University of Adelaide, and Flinders University, will be created by integrating new laser instrumentation with existing specialised infrastructure. The facility will provide chemists at the four institutions with the necessary equipment to collaboratively investigate and optimise the properties of a diverse array of advanced materials, including nanoparticle ....Advanced Materials Laser Characterisation Facility. A networked laser facility spanning the University of Melbourne, Monash University, the University of Adelaide, and Flinders University, will be created by integrating new laser instrumentation with existing specialised infrastructure. The facility will provide chemists at the four institutions with the necessary equipment to collaboratively investigate and optimise the properties of a diverse array of advanced materials, including nanoparticles, polymers, biomaterials, and artificial photosynthetic systems. The outcome will be a world-class research network, outfitted with a suite of sophisticated techniques that are not currently available at any single university, or through any other Australian institution or consortium.Read moreRead less
Polymer nanoobjects functionalized by polymer brushes: preparation, organization and integration in devices. The proposed project targets the collaboration between two leading research teams. The University of Marburg is leading in the area of the preparation of nanoobjects, while the research team at CAMD (UNSW) focuses on the preparation of well-controlled polymer structures via RAFT polymerisation. The combined strength of both groups seeks to improve the properties of nanodevices by the atta ....Polymer nanoobjects functionalized by polymer brushes: preparation, organization and integration in devices. The proposed project targets the collaboration between two leading research teams. The University of Marburg is leading in the area of the preparation of nanoobjects, while the research team at CAMD (UNSW) focuses on the preparation of well-controlled polymer structures via RAFT polymerisation. The combined strength of both groups seeks to improve the properties of nanodevices by the attachment of well-defined polymer layers. We expect therefore an optimum scientific output with both groups focusing on their research potency next to being able to access new knowledge. The visit to the German research group enables the Australian researchers access to a leading team in nanotechnology.Read moreRead less
Living Free Radical Polymerization for Nano Technology Applications. The proposed linkage project centres on a series of core projects from both the Australian and German collaborators. These core projects range from the synthesis of multifunctional nano- and micro-sphere particles, block copolymer systems used as efficient vehicles for drug delivery purposes to polymer brushes for nano-wires. The collaborating teams will carry out joint research tasks in the above mentioned fields via the excha ....Living Free Radical Polymerization for Nano Technology Applications. The proposed linkage project centres on a series of core projects from both the Australian and German collaborators. These core projects range from the synthesis of multifunctional nano- and micro-sphere particles, block copolymer systems used as efficient vehicles for drug delivery purposes to polymer brushes for nano-wires. The collaborating teams will carry out joint research tasks in the above mentioned fields via the exchange of the CIs and PhD students. The project is planned for a duration of three years to ensure an in-depth approach to the proposed projects.Read moreRead less
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