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Engineered nanoporous materials and composites having hierarchical structures by emulsion templating. The project aims to develop new and flexible emulsion-templated processes capable of constructing novel nanoporous materials with hierarchical structures. The project has the potential to revolutionise current approaches for making porous materials, and the outcomes will enhance Australia's ability in frontier technologies and advanced materials.
Nanoarchitectured anti-corrosion coatings for zinc-plated steel. Zinc-plated steel is widely used in buildings, households and vehicles, but the long-term performance is limited due to corrosion resulting from exposure to high humidity or alkaline conditions. Currently, available chromium coatings are toxic, while polymeric coatings lack durability. This project aims to use nanotechnology to develop highly effective, multifunctional anti-corrosive coatings in which long-term protection is achiev ....Nanoarchitectured anti-corrosion coatings for zinc-plated steel. Zinc-plated steel is widely used in buildings, households and vehicles, but the long-term performance is limited due to corrosion resulting from exposure to high humidity or alkaline conditions. Currently, available chromium coatings are toxic, while polymeric coatings lack durability. This project aims to use nanotechnology to develop highly effective, multifunctional anti-corrosive coatings in which long-term protection is achieved by controlling the wettability and self-healing properties. The project is excepted to generate new knowledge in coating materials that limit corrosion and address environmental problems. This advanced manufacturing technology should be of high-value benefit to manufacturers and consumers of zinc-plated steel.Read moreRead less
Functional molecular nanomaterials. The design and construction of advanced nanomaterials is a key step in the push towards more efficient energy systems and smarter technologies. Through the strategic assembly of new classes of molecular nanomaterials, this project will lead to important fundamental advances in nanoscience and will underpin a range of new high-level technologies.
Reactivity Enhanced Low-Valent Alkaline Earth Metal Compounds. The project aims to develop highly activated low oxidation state alkaline earth metal complexes as cheap and sustainable alternatives to toxic/expensive late transition metal complexes, that currently dominate the transformation of inert small molecule substrates into value-added organic chemicals. The project expects to generate major fundamental and applied advances in chemistry, using innovative synthetic and computational approac ....Reactivity Enhanced Low-Valent Alkaline Earth Metal Compounds. The project aims to develop highly activated low oxidation state alkaline earth metal complexes as cheap and sustainable alternatives to toxic/expensive late transition metal complexes, that currently dominate the transformation of inert small molecule substrates into value-added organic chemicals. The project expects to generate major fundamental and applied advances in chemistry, using innovative synthetic and computational approaches, and a multidisciplinary collaborative team. Expected outcomes include building of academic and, later, industrial research capacity, knowledge, an international network, and a highly trained workforce. Success should see substantial economic, environmental and societal benefits flowing to Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100090
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Novel anodic coating of magnesium alloy components for corrosion protection. This research aims to protect magnesium alloys from corrosion, paving a path for them to be used as auto and aircraft components. It will establish novel protective anodic coatings upon magnesium and thereby pioneer implementation of magnesium alloys more generally, as galvanising did for steels.
Industrial Transformation Training Centres - Grant ID: IC190100034
Funder
Australian Research Council
Funding Amount
$3,574,272.00
Summary
ARC Training Centre for Green Chemistry in Manufacturing. Globally, there is demand for products that are effective, safe and environmentally benign. The ARC Training Centre for Green Chemistry in Manufacturing aims to utilise local and global experts to provide the next generation of Australian chemists and engineers, with skills to develop innovative products and processes that are intrinsically safe and benign. It will provide collaborating partners and the broader manufacturing industry with ....ARC Training Centre for Green Chemistry in Manufacturing. Globally, there is demand for products that are effective, safe and environmentally benign. The ARC Training Centre for Green Chemistry in Manufacturing aims to utilise local and global experts to provide the next generation of Australian chemists and engineers, with skills to develop innovative products and processes that are intrinsically safe and benign. It will provide collaborating partners and the broader manufacturing industry with new products and processes with strong export potential, and the ability to respond to the market pressures, underpinned by green chemistry and sustainable principles. Resulting benefits include increased competitiveness for Australia's manufacturing industry, jobs, social as well as environmental benefitsRead moreRead less
Low cost solution-processable 2D nanomaterials for smart windows. This project aims to develop low cost and scalable synthesis of the active functional nanomaterials in smart windows, their facile application techniques, and their integration into the glass manufacturing process. Smart windows, with thermochromic and electrochromic functionalities, will play important roles towards efficient energy usage and conservation (in terms of air-conditioning and lighting) in most buildings including off ....Low cost solution-processable 2D nanomaterials for smart windows. This project aims to develop low cost and scalable synthesis of the active functional nanomaterials in smart windows, their facile application techniques, and their integration into the glass manufacturing process. Smart windows, with thermochromic and electrochromic functionalities, will play important roles towards efficient energy usage and conservation (in terms of air-conditioning and lighting) in most buildings including offices, schools, and residential homes. . The intended outcome of this project is to facilitate the commercialisation of low-cost, energy-saving smart windows for efficient energy usage and conservation, which is an integral part of a sustainable environment.Read moreRead less
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
Emergent properties in spin crossover materials. This project aims to develop ‘intelligent’ materials in which emergent properties arise due to the strategic combination of spin switching with other functionalities. Spin crossover is a versatile form of molecular switch which can reversibly change structure, colour and magnetism using convenient external stimuli. In probing new and interesting forms of interplay between technologically relevant properties, this work addresses the science of host ....Emergent properties in spin crossover materials. This project aims to develop ‘intelligent’ materials in which emergent properties arise due to the strategic combination of spin switching with other functionalities. Spin crossover is a versatile form of molecular switch which can reversibly change structure, colour and magnetism using convenient external stimuli. In probing new and interesting forms of interplay between technologically relevant properties, this work addresses the science of host-guest and electronic/magnetic systems and could lead to materials worthy of commercial development to underpin a range of future high-level technologies spanning low energy separations, molecular sensing, data storage, and electronic/magnetic/optical device componentry.Read moreRead less
Advancing green electrochemical engineering of functional 2D nanomaterials. This project aims to produce value-added functional 2D nanomaterials by advancing the green, scalable and cost-effective electrochemical production method developed by the candidate. In addition to developing transformational electrochemical engineering technology to utilise Australian raw resources, this project will generate new knowledge in the area of materials chemistry and innovative additive manufacturing technolo ....Advancing green electrochemical engineering of functional 2D nanomaterials. This project aims to produce value-added functional 2D nanomaterials by advancing the green, scalable and cost-effective electrochemical production method developed by the candidate. In addition to developing transformational electrochemical engineering technology to utilise Australian raw resources, this project will generate new knowledge in the area of materials chemistry and innovative additive manufacturing technology. Expected outcomes of this project include improved pilot-scale electrochemical reactors for producing various functional 2D nanomaterials and enabling precise control of their molecular and bulk properties. These tailored 2D nanomaterials will significantly improve the performances of flexible and energy-related devices.Read moreRead less