Protein Structure and Dynamics by Electron/Nuclear Paramagnetic Resonance. This interdisciplinary project aims to establish new magnetic resonance methods for the analysis of protein structure and motion at low concentrations and in physiological conditions that are otherwise difficult or impossible to study. It brings together four different research groups with expertise in advanced biochemistry, modern magnetic spectroscopy and high-performance computing. The project expects to develop tools ....Protein Structure and Dynamics by Electron/Nuclear Paramagnetic Resonance. This interdisciplinary project aims to establish new magnetic resonance methods for the analysis of protein structure and motion at low concentrations and in physiological conditions that are otherwise difficult or impossible to study. It brings together four different research groups with expertise in advanced biochemistry, modern magnetic spectroscopy and high-performance computing. The project expects to develop tools to study protein structure, protein-protein association and protein-ligand interactions of established drug-targets. Expected outcomes include new techniques that quickly inform how drugs work, providing significant benefits to many researchers studying biomolecules, and supporting Australia’s growing biotechnology sector. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100174
Funder
Australian Research Council
Funding Amount
$805,000.00
Summary
Urban Analytics Data Infrastructure. Urban analytics data infrastructure:
This project aims to develop an urban analytics data infrastructure that builds on the Australian Urban Research Infrastructure Network. This digital data infrastructure intends to enable the integration, harmonisation, connectivity and scalability of multi-source urban datasets. This infrastructure is required to underpin the next generation of data-driven modelling and decision-support tools to enable the design of smar ....Urban Analytics Data Infrastructure. Urban analytics data infrastructure:
This project aims to develop an urban analytics data infrastructure that builds on the Australian Urban Research Infrastructure Network. This digital data infrastructure intends to enable the integration, harmonisation, connectivity and scalability of multi-source urban datasets. This infrastructure is required to underpin the next generation of data-driven modelling and decision-support tools to enable the design of smart, productive and resilient cities. These capabilities are predicated on the adoption of ISO standards, development of new ontological frameworks and an urban data dictionary to enable semantic inferencing of datasets and the development of data structures and services. This framework would then be applied to data relevant to people, land and urban infrastructure to support comparative and multi-dimensional analytics. Read moreRead less
Innovative procurement theories to optimise education per cost of school. Innovative procurement theories to optimise education per cost of school. This project aims to develop a whole-of-life procurement decision-making framework so schools can make delivering better education more cost effective. This framework—which draws on state-of-the-art and Nobel prize-winning theories and a new theory the project will develop—will be used in government and private schools. The effectiveness of this fram ....Innovative procurement theories to optimise education per cost of school. Innovative procurement theories to optimise education per cost of school. This project aims to develop a whole-of-life procurement decision-making framework so schools can make delivering better education more cost effective. This framework—which draws on state-of-the-art and Nobel prize-winning theories and a new theory the project will develop—will be used in government and private schools. The effectiveness of this framework in improving schools will be shown using a new approach to make school facilities deliver educational outcomes and account for their total production and transaction costs. This research is expected to deliver more efficient ways to future-proof schools to create a well performing school system and more resilient infrastructure vital to Australia’s future prosperity.Read moreRead less
Enzyme-inspired polymer nanomaterials. This project aims to develop new chemical methods and polymers inspired by nature. Enzymes are nature’s catalysts: they recognise a substrate and bind with it to provide the optimal environment for a reaction. However, they are easily degraded, limiting their industrial use. This project aims to develop new, highly stable polymer designs that can perform similar functions. This will be achieved by using polymer and supramolecular chemistry to control the re ....Enzyme-inspired polymer nanomaterials. This project aims to develop new chemical methods and polymers inspired by nature. Enzymes are nature’s catalysts: they recognise a substrate and bind with it to provide the optimal environment for a reaction. However, they are easily degraded, limiting their industrial use. This project aims to develop new, highly stable polymer designs that can perform similar functions. This will be achieved by using polymer and supramolecular chemistry to control the reaction environment, in combination with computational techniques to explore observed reactivity and guide nanoenvironment design. Expected outcomes include new polymers and materials capable of controlling a range of reactions and expanding the scope of bioinspired polymer design.Read moreRead less
Pro-Fluorescent Aryl Nitroxides: New Probes for Polymer Lifetime and Kinetics Research. Internal aryl rings present in novel probes developed for this project impart fluorescence which is efficiently and internally quenched by the presence of a paramagnetic nitroxide group. Scavenging of radicals by the nitroxide however "switches on" the fluorescence and this enables powerful new fluorescence-based detection levels for the technique of nitroxide free radical scavenging. Such sensitivity is a ....Pro-Fluorescent Aryl Nitroxides: New Probes for Polymer Lifetime and Kinetics Research. Internal aryl rings present in novel probes developed for this project impart fluorescence which is efficiently and internally quenched by the presence of a paramagnetic nitroxide group. Scavenging of radicals by the nitroxide however "switches on" the fluorescence and this enables powerful new fluorescence-based detection levels for the technique of nitroxide free radical scavenging. Such sensitivity is applicable to polymerization kinetics studies, as well as providing new means for the determination of materials lifetimes. The development of pro-fluorescent markers as indicators for polymer degradation would be a significant outcome for materials where component failure has a major negative impact.Read moreRead less
Innovative learning environments and teacher change. This project aims to bridge a gap between the educational potential of innovative learning environment designs, and their actual performance. Currently, multi-modal technology-enabled spaces are not producing demonstrable benefits for students. Many teachers resist altering their mindset about how students learn effectively in these spaces and thus how teachers should teach differently. The project aims to work with schools, government and ind ....Innovative learning environments and teacher change. This project aims to bridge a gap between the educational potential of innovative learning environment designs, and their actual performance. Currently, multi-modal technology-enabled spaces are not producing demonstrable benefits for students. Many teachers resist altering their mindset about how students learn effectively in these spaces and thus how teachers should teach differently. The project aims to work with schools, government and industry to analyse the relationships between quality teaching and effective use of innovative learning environments. The new understanding gained through the project is expected to guide developments in pedagogy, policy and design and to produce strategies to improve learning in schools across Australia and New Zealand.Read moreRead less
Mitigating the Severity of Level Crossing Accidents and Derailments. Ongoing increases in the number of level crossings and heavy road vehicles cause more frequent and severe level crossing accidents and derailments. Despite the use of active warning systems, each year, on average, 100 level crossing accidents occur in Australia. With a view to mitigating these crashes, this research aims to formulate theories for reduction in crash energy and effective wheel constraints to prevent derailment by ....Mitigating the Severity of Level Crossing Accidents and Derailments. Ongoing increases in the number of level crossings and heavy road vehicles cause more frequent and severe level crossing accidents and derailments. Despite the use of active warning systems, each year, on average, 100 level crossing accidents occur in Australia. With a view to mitigating these crashes, this research aims to formulate theories for reduction in crash energy and effective wheel constraints to prevent derailment by modifying the levels of road and rail crossings and providing guard rails in the recesses of these modified level crossings. The theories are intended be developed using nonlinear dynamic computational methods and laboratory experiments. The outcomes are expected to enable reduction in the severity of level crossing accidents and hence save lives and costs of derailment.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100133
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
National Facility for Physical Blast Simulation (NFPBS). Recent terrorist attacks employing large quantities of high explosives have prompted the international demand for experimental investigation of civil infrastructure response to shock wave loadings. The National Facility for Physical Blast Simulation (NFPBS) is one of only a few in the world that are suitable for conducting experimental research via a physically generated blast approach.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100148
Funder
Australian Research Council
Funding Amount
$1,350,000.00
Summary
Advanced Nuclear Magnetic Resonance Technologies for Southeast Queensland. This project aims to establish an advanced Nuclear Magnetic Resonance capability and capacity at two of Queenslands' leading research intensive universities. The project expects to enhance the scope and productivity of hundreds of research projects spanning natural products, synthetic, medicinal, materials and environmental science. Expected outcomes include smarter science, more productive collaborations and superior res ....Advanced Nuclear Magnetic Resonance Technologies for Southeast Queensland. This project aims to establish an advanced Nuclear Magnetic Resonance capability and capacity at two of Queenslands' leading research intensive universities. The project expects to enhance the scope and productivity of hundreds of research projects spanning natural products, synthetic, medicinal, materials and environmental science. Expected outcomes include smarter science, more productive collaborations and superior research training, leading to innovative solutions to challenging problems that confront science and society. This investment should provide significant benefits in the form of new knowledge across multiple disciplines, informing the design of future medicines, agrochemicals, materials and other products.
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