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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100017
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
An integrated system for measuring thermoelectric properties of advanced materials. This facility will establish an integrated measuring system which will form the key step in developing thermoelectric materials. The instruments will support groundbreaking research in developing advanced materials with significant economic and environmental benefits for many industries, such as materials manufacturing and improving automobile energy efficiency.
Optimising gaseous and particulate emissions from diesel engines. About $3.7 billion is spent annually in Australia on respiratory diseases. Diesel vehicle emissions of nano- and ultra-fine urban air particulate pollution are a significant factor in this disease. This project will directly addresses this problem by developing a technology to monitor and reduce diesel particulate emissions.
Discovery Early Career Researcher Award - Grant ID: DE120102942
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
The general Richtmyer-Meshkov instability in magnetohydrodynamics. Fluid dynamic instabilities limit the chance of inertial confinement fusion, a carbon-free process, achieving net energy production. In highly idealised circumstances it has been shown that one of these instabilities can be suppressed by a magnetic field, a phenomenon that this project will investigate in the general case.
Devising a legal blueprint for corporate energy transition. This project aims to provide a legal blueprint for using corporate law mechanisms to incentivise improved climate risk management and clean energy practices in Australian companies. Corporations are key players in efforts to transition the global energy system to clean energy sources and to mitigate climate risk. While this role is widely acknowledged, thinking on the best legal strategies that could foster corporate energy transition i ....Devising a legal blueprint for corporate energy transition. This project aims to provide a legal blueprint for using corporate law mechanisms to incentivise improved climate risk management and clean energy practices in Australian companies. Corporations are key players in efforts to transition the global energy system to clean energy sources and to mitigate climate risk. While this role is widely acknowledged, thinking on the best legal strategies that could foster corporate energy transition is in its infancy. Drawing on empirical data and more extensive United States experience with the use of corporate law tools for climate ends, the project plans to uncover roadblocks to corporate energy transformation, and identify law and governance reforms necessary for putting the private sector on a low-carbon pathway.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100137
Funder
Australian Research Council
Funding Amount
$358,275.00
Summary
Integrated thin film facility for catalysis and energy materials research. This project aims to establish thin film fabrication with catalytic/gas sorption characterisation needed for energy research. This project will overcome current limitations in advanced energy materials design via wet chemical methods. It will enable materials synthesis and characterisation toward thermal/photo/electro-catalytic, hydrogen storage, and battery technologies. The facility is expected to drive fundamental conc ....Integrated thin film facility for catalysis and energy materials research. This project aims to establish thin film fabrication with catalytic/gas sorption characterisation needed for energy research. This project will overcome current limitations in advanced energy materials design via wet chemical methods. It will enable materials synthesis and characterisation toward thermal/photo/electro-catalytic, hydrogen storage, and battery technologies. The facility is expected to drive fundamental concepts, and enable combinatorial search and new thin film technology. It is anticipated that this facility will increase Australia’s international competitiveness in the development of advanced energy materials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100069
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
A complete thermo-electric characterisation facility for exploration of novel materials and devices at high temperatures. This high temperature materials’ characterisation facility will be the most advanced measurement setup of its kind in Australia. The unique features of the equipment and its high versatility will substantially enhance national research capabilities in functional materials, metal engineering, manufacturing engineering, chemistry, and physics.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100174
Funder
Australian Research Council
Funding Amount
$800,000.00
Summary
Innovative synchrotron science - program for access to the Australian National Beamline Facility and cutting-edge beamlines at international synchrotrons. Synchrotron science dramatically affects the community through the innovative scientific, engineering and medical research outcomes it produces. This program for access to synchrotron beamlines is aimed at enhancing Australia's high international standing in synchrotron science and will have many flow-on effects in areas such as health and ind ....Innovative synchrotron science - program for access to the Australian National Beamline Facility and cutting-edge beamlines at international synchrotrons. Synchrotron science dramatically affects the community through the innovative scientific, engineering and medical research outcomes it produces. This program for access to synchrotron beamlines is aimed at enhancing Australia's high international standing in synchrotron science and will have many flow-on effects in areas such as health and industry.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190101410
Funder
Australian Research Council
Funding Amount
$393,000.00
Summary
Structural and compositional controlled nanocarbon-based electrocatalyst. This project aims to develop highly effective carbon-based electro-catalysts for oxygen reduction by using elaborately designed metal-organic framework precursors. Oxygen reduction is a key cathodic reaction in clean energy technologies such as metal-air batteries and fuel cells. Expected outcomes of this project include carbon-based nanomaterials with optimised topological and compositional features. This project will bro ....Structural and compositional controlled nanocarbon-based electrocatalyst. This project aims to develop highly effective carbon-based electro-catalysts for oxygen reduction by using elaborately designed metal-organic framework precursors. Oxygen reduction is a key cathodic reaction in clean energy technologies such as metal-air batteries and fuel cells. Expected outcomes of this project include carbon-based nanomaterials with optimised topological and compositional features. This project will broaden the knowledge of designed synthesis of carbon-based nanocatalysts for oxygen reduction and provide a conceptual nanofabrication framework for preparing functional nanomaterials.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100429
Funder
Australian Research Council
Funding Amount
$406,177.00
Summary
Bioinspired Photocatalysts for Solar-Driven Hydrogen Peroxide Production. This project aims to develop advanced photocatalysts that can efficiently produce hydrogen peroxide from just water, air, and sunlight. By mimicking the structure and function of the natural photosynthetic apparatus, the key innovations are expected in the design of reaction-oriented conjugated polymer-based photocatalysts at the atomic and molecular nanostructure levels. It expects to generate new knowledge in artificial ....Bioinspired Photocatalysts for Solar-Driven Hydrogen Peroxide Production. This project aims to develop advanced photocatalysts that can efficiently produce hydrogen peroxide from just water, air, and sunlight. By mimicking the structure and function of the natural photosynthetic apparatus, the key innovations are expected in the design of reaction-oriented conjugated polymer-based photocatalysts at the atomic and molecular nanostructure levels. It expects to generate new knowledge in artificial photosynthesis and rational design of functional materials, and sustainable technology for hydrogen peroxide production. This cross-disciplinary research will benefit Australia by the development of biomimetic catalysts for advancing solar energy conversion and enabling sustainable manufacturing of commodity chemicals. Read moreRead less
The converging shock driven Richtmyer-Meshkov instability in magnetohydrodynamics. Fluid dynamic instabilities limit the chance of inertial confinement fusion, a carbon-free process, achieving net energy production. The project will investigate the effectiveness and consequences of suppressing one of these instabilities with a magnetic field.