Discovery Early Career Researcher Award - Grant ID: DE220100163
Funder
Australian Research Council
Funding Amount
$411,000.00
Summary
Harnessing dynamic materials to produce better heterogeneous catalysts. This project aims to investigate an emerging class of catalysts featuring dynamic reaction sites using innovative computational chemistry methods. The capability of traditional materials has reached a performance status quo for many catalytic reactions. Dynamic materials may unlock a new dimension in catalyst design; however, their influence on reactivity is unclear, and the combination of materials and dynamics represents a ....Harnessing dynamic materials to produce better heterogeneous catalysts. This project aims to investigate an emerging class of catalysts featuring dynamic reaction sites using innovative computational chemistry methods. The capability of traditional materials has reached a performance status quo for many catalytic reactions. Dynamic materials may unlock a new dimension in catalyst design; however, their influence on reactivity is unclear, and the combination of materials and dynamics represents an immense parameter space. This project expects to provide a comprehensive framework for understanding dynamic catalytic processes. Expected outcomes of this project include the identification of specific materials and dynamics that achieve extraordinary efficiency for the benefit of sustainable chemical production.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100476
Funder
Australian Research Council
Funding Amount
$465,237.00
Summary
Development of rapid-response thermal batteries for the global market. In collaboration with Isothermix, this project aims to develop and commercialize cost-effective, rapid-response thermal batteries to meet the air conditioning peak demand of buildings. This project expects to generate new knowledge about the phase change materials which can be used to store thermal energy across a range of temperatures and the highly thermal conductive materials which can be used as a heat exchanger. Expected ....Development of rapid-response thermal batteries for the global market. In collaboration with Isothermix, this project aims to develop and commercialize cost-effective, rapid-response thermal batteries to meet the air conditioning peak demand of buildings. This project expects to generate new knowledge about the phase change materials which can be used to store thermal energy across a range of temperatures and the highly thermal conductive materials which can be used as a heat exchanger. Expected outcomes include the development of rapid response thermal batteries which can cool buildings across a range of temperatures and site conditions. This should provide significant benefits by reducing primary heating and cooling plant capacity and thereby our reliance on fossil fuels.Read moreRead less
Design of novel nanoporous semiconductor materials for clean environment and energy. This project will develop a low cost nanoporous semiconductor device for the capture and conversion of CO2 into fuels by using water and sunlight. This novel approach will deliver a low cost technology that offers clean energy and will help to mitigate global warming.
Discovery Early Career Researcher Award - Grant ID: DE160100306
Funder
Australian Research Council
Funding Amount
$373,536.00
Summary
Functional Superstructures of Microporous Metal-Organic Frameworks. This project aims to develop metal-organic framework (MOF) superstructures as a new materials platform. MOFs are an emerging class of porous adsorbents that are expected to fulfil a crucial role as functional materials in industrially important applications, including molecular separations and heterogeneous catalysis. However, there is an urgent need for convenient methods to integrate the attractive properties of MOFs with the ....Functional Superstructures of Microporous Metal-Organic Frameworks. This project aims to develop metal-organic framework (MOF) superstructures as a new materials platform. MOFs are an emerging class of porous adsorbents that are expected to fulfil a crucial role as functional materials in industrially important applications, including molecular separations and heterogeneous catalysis. However, there is an urgent need for convenient methods to integrate the attractive properties of MOFs with the unique features of meso- and macrostructured materials, and for a fundamental understanding of the influence of structuring on their material properties. The project intends to synthesise structuralised MOFs as a platform for studies related to their adsorptive and dynamic properties, and to study these systems as next-generation materials for hydrocarbon separations.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100041
Funder
Australian Research Council
Funding Amount
$680,320.00
Summary
National laser-based non-destructive evaluation system. This project aims to establish the first Australian national facility for non-destructive evaluation, consisting of a three-dimensional scanning laser vibrometer, laser shearography, and an optical de-rotator, to enable full-field characterisation of the deformation and damage state of materials and structures. This solution is expected to perform rapid, broad-area scans, characterise dynamic response and wave propagation in human-engineere ....National laser-based non-destructive evaluation system. This project aims to establish the first Australian national facility for non-destructive evaluation, consisting of a three-dimensional scanning laser vibrometer, laser shearography, and an optical de-rotator, to enable full-field characterisation of the deformation and damage state of materials and structures. This solution is expected to perform rapid, broad-area scans, characterise dynamic response and wave propagation in human-engineered or natural structures, and diagnose rotating systems. This will enhance experimental capabilities, with uses spanning many industry sectors including aerospace, naval, automotive and medical.Read moreRead less
New silane anti-corrosion coatings for steel surfaces. Steel products are a major export for Australia. Orrcon is one of Australia's largest suppliers of steel pipe and tubing. This study of how to stop steel from corroding will produce new breakthroughs in understanding silane chemistry, which is safer, cheaper and more effective in reducing rust, than what is being used today. This new science will benefit Australia's research into corrosion and help us to be more competitive in the export of ....New silane anti-corrosion coatings for steel surfaces. Steel products are a major export for Australia. Orrcon is one of Australia's largest suppliers of steel pipe and tubing. This study of how to stop steel from corroding will produce new breakthroughs in understanding silane chemistry, which is safer, cheaper and more effective in reducing rust, than what is being used today. This new science will benefit Australia's research into corrosion and help us to be more competitive in the export of steel. Our proof of concept studies on the corrosion resistance of new silanes on aerospace aluminium alloys has helped Australian products enter markets where chromium(VI) is now banned. Silicon chemistry is also little researched in Australia and this project will train four new researchers in this field.Read moreRead less
Open framework organic materials for CO2 capture and conversion. The reduction of CO2 emissions from coal-fired power plants is a technological challenge of global significance. This project will address this challenge by developing a unique system, based upon open framework materials, that will selectively capture CO2 from gas streams and then catalyse its transformation into industrially useful chemicals.
Polymer technologies for oil spill remediation and slow-release fertilisers. This project aims to evaluate a patented sulfur polymer in commercial oil spill remediation and slow-release fertilisers. Key objectives are to determine how the polymer degrades, assess the effectiveness of the polymer in oil spill sorption in different contexts, and investigate the polymer as a matrix for slow-release fertilisers. The project expects to generate new approaches to sustainable remediation and crop produ ....Polymer technologies for oil spill remediation and slow-release fertilisers. This project aims to evaluate a patented sulfur polymer in commercial oil spill remediation and slow-release fertilisers. Key objectives are to determine how the polymer degrades, assess the effectiveness of the polymer in oil spill sorption in different contexts, and investigate the polymer as a matrix for slow-release fertilisers. The project expects to generate new approaches to sustainable remediation and crop production. Expected outcomes include new knowledge about the biodegradation of the polymer, new methods for deploying the polymer in oil spill cleanup, and new fertilisers that prevent nutrient waste and runoff. Significant benefits are expected for the environment, as well as economic benefits to the manufacturer and end-users.Read moreRead less