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Australian Laureate Fellowships - Grant ID: FL190100014
Funder
Australian Research Council
Funding Amount
$2,871,982.00
Summary
New Technologies for Delivering Sustainable Free-form Architecture. This project aims to harness the full potential of digital technologies to significantly enhance the performance and reduce the environmental impact of free-form architecture of the future. The research expects to establish a fundamentally new computational platform capable of producing diverse and competitive designs, and an environmentally friendly manufacturing process for realising such designs. Expected outcomes include an ....New Technologies for Delivering Sustainable Free-form Architecture. This project aims to harness the full potential of digital technologies to significantly enhance the performance and reduce the environmental impact of free-form architecture of the future. The research expects to establish a fundamentally new computational platform capable of producing diverse and competitive designs, and an environmentally friendly manufacturing process for realising such designs. Expected outcomes include an unprecedented cloud-based interactive design tool, and a novel minimum-waste manufacturing technology for fabricating mass-customised building components. This project will transform the architecture, engineering and construction (AEC) sector and make the Australian manufacturing industry more competitive globally.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL190100126
Funder
Australian Research Council
Funding Amount
$3,508,332.00
Summary
Carbon-based Metal-free Catalysis: An Emerging Field with Great Potential. Catalysis is a major field and noble metal catalysts play a key role in renewable energy technologies, chemical and environmental processes. However, the scarcity and high cost of noble metals have caused sustainability problems. Since this Laureate applicant discovered the first metal-free carbon catalyst for energy, carbon-based metal-free catalysis rapidly became a promising emerging field, but many scientific question ....Carbon-based Metal-free Catalysis: An Emerging Field with Great Potential. Catalysis is a major field and noble metal catalysts play a key role in renewable energy technologies, chemical and environmental processes. However, the scarcity and high cost of noble metals have caused sustainability problems. Since this Laureate applicant discovered the first metal-free carbon catalyst for energy, carbon-based metal-free catalysis rapidly became a promising emerging field, but many scientific questions remain unsolved. In this program, innovative approaches will be developed to produce never-before-realized catalytic active centres of a controlled location and structure for mechanistic understanding to enable future breakthroughs in metal-free catalysis and a broad range of technology with far ranging applications.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL210100050
Funder
Australian Research Council
Funding Amount
$3,263,000.00
Summary
Interfacial design and engineering for high-performance batteries. This Fellowship aims to design the next generation of batteries - for use in portable devices, electric vehicles and smart grids - that will overcome the energy density, cycle life, and safety issues, and will contribute to a more sustainable future. This comprehensive and ground-breaking research program combines experiment and theory of electrode/electrolyte interfacial behaviour with materials engineering, to develop a toolkit ....Interfacial design and engineering for high-performance batteries. This Fellowship aims to design the next generation of batteries - for use in portable devices, electric vehicles and smart grids - that will overcome the energy density, cycle life, and safety issues, and will contribute to a more sustainable future. This comprehensive and ground-breaking research program combines experiment and theory of electrode/electrolyte interfacial behaviour with materials engineering, to develop a toolkit of new battery design principles. The program expects to deliver high energy-density batteries with outstanding safety profiles and extended cycle lives. These outcomes would revolutionise battery technologies and position Australia as a global leader in the critical transition to a decarbonised economy.
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Australian Laureate Fellowships - Grant ID: FL210100017
Funder
Australian Research Council
Funding Amount
$3,115,000.00
Summary
Nanoscale-interactions making future functional materials more powerful . Traditional crystal chemistry can no longer meet the demands for development of new functional materials - the foundation of modern industry. The program aims to overcome this challenge by introducing a new strategy into experimental and theoretical research to transform our understanding and application of nanoscale structural and chemical features in materials. The program expects to build new crystal chemistry that incl ....Nanoscale-interactions making future functional materials more powerful . Traditional crystal chemistry can no longer meet the demands for development of new functional materials - the foundation of modern industry. The program aims to overcome this challenge by introducing a new strategy into experimental and theoretical research to transform our understanding and application of nanoscale structural and chemical features in materials. The program expects to build new crystal chemistry that includes nanoscale-interaction information and deep machine-learning to improve the predictability of material properties. Potential outcomes of the program include enhanced capacity for revolutionary materials development thus keeping Australia's leading position in innovative technology, benefiting academia and industry.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL140100215
Funder
Australian Research Council
Funding Amount
$2,370,000.00
Summary
Fundamental high temperature e-waste investigations for high-value products. Fundamental high temperature e-waste investigations for high-value products. This project aims to transform toxic electronic waste (e-waste) into value added metals and alloys, simultaneously segregating hazardous constituents and preventing the generation of harmful emissions during processing. Huge stockpiles of this fast growing waste stream are creating a crisis of quantity as well as of toxic ingredients posing ser ....Fundamental high temperature e-waste investigations for high-value products. Fundamental high temperature e-waste investigations for high-value products. This project aims to transform toxic electronic waste (e-waste) into value added metals and alloys, simultaneously segregating hazardous constituents and preventing the generation of harmful emissions during processing. Huge stockpiles of this fast growing waste stream are creating a crisis of quantity as well as of toxic ingredients posing serious health and environmental problems. Using atomic-level simulations, rapid heating, high temperatures (1000-1600 C) and selective thermal transformations, this project aims to establish novel pathways for a controlled transformation of e-waste. Microrecycling fundamentals on high temperature transformations of metals, plastics and oxides and other micro-level phenomena will be established.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100029
Funder
Australian Research Council
Funding Amount
$2,545,000.00
Summary
Nanoionics: Engineering ion transport with two-dimensional materials. This project aims to use graphene and other emerging two-dimensional materials to investigate and manipulate ion transport in nanoscale channels. Nanoionics focuses on understanding ions for transport and storage in nanoscale systems, central to numerous technologies related to water, energy and biomedicine. The project will provide sophisticated methods for revolutionary technological innovations to solve problems in several ....Nanoionics: Engineering ion transport with two-dimensional materials. This project aims to use graphene and other emerging two-dimensional materials to investigate and manipulate ion transport in nanoscale channels. Nanoionics focuses on understanding ions for transport and storage in nanoscale systems, central to numerous technologies related to water, energy and biomedicine. The project will provide sophisticated methods for revolutionary technological innovations to solve problems in several industries including manufacturing, mining, water management and bioengineering. Providing access to previously unavailable structures and materials, the project will support Australia’s manufacturing sector by transforming established industries with next generation technologies. The project will also build capacity of nanoionics engineers and provide intellectual property for commercialised products.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL190100139
Funder
Australian Research Council
Funding Amount
$3,185,850.00
Summary
New Artificial Leaf for Efficient Solar Fuel Production . The Fellowship aims to develop next-generation materials that harness solar energy to produce valuable fuels and chemicals from water and carbon dioxide, replacing fossil fuels. The program will design new semiconductor materials to revolutionise solar-to-fuel technologies that currently have very low efficiency. The expected outcomes include innovative systems such as wireless artificial leaves that mimic natural photosynthesis for effic ....New Artificial Leaf for Efficient Solar Fuel Production . The Fellowship aims to develop next-generation materials that harness solar energy to produce valuable fuels and chemicals from water and carbon dioxide, replacing fossil fuels. The program will design new semiconductor materials to revolutionise solar-to-fuel technologies that currently have very low efficiency. The expected outcomes include innovative systems such as wireless artificial leaves that mimic natural photosynthesis for efficient hydrocarbon production, carbon dioxide reduction, and water purification. The expected benefits include next-generation solar fuel and chemical generation technologies, and research capabilities to position Australia as a global leader in the transition to a decarbonised economy.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100154
Funder
Australian Research Council
Funding Amount
$2,683,730.00
Summary
Solar-driven sustainable production of fuels and chemicals. This project aims to address the efficient and sustainable production of fuels and chemicals using abundant sources like water, carbon dioxide and sunlight by an integrated reaction system. Through understanding molecular design principles and material engineering, this project expects to develop a range of novel electrocatalysts featuring high activity, efficiency, selectivity and stability for carbon dioxide reduction and hydrogen evo ....Solar-driven sustainable production of fuels and chemicals. This project aims to address the efficient and sustainable production of fuels and chemicals using abundant sources like water, carbon dioxide and sunlight by an integrated reaction system. Through understanding molecular design principles and material engineering, this project expects to develop a range of novel electrocatalysts featuring high activity, efficiency, selectivity and stability for carbon dioxide reduction and hydrogen evolution reactions. These new catalysts will facilitate a hybrid reaction cell as artificial leaf mimics by associating photocatalysis and electrocatalysis processes. The expected outcome of this project is of great importance for solar fuel generation and carbon dioxide utilisation, which are the key energy and environmental challenges facing Australia and the world today. This will provide benefits such as an innovative system of solar energy transformation that will lead to the production of fuels and key chemicals in an efficient, selective and sustainable form, ultimately bringing environmental benefits through much smaller greenhouse gas emissions.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100053
Funder
Australian Research Council
Funding Amount
$3,162,000.00
Summary
Re-discovering liquid metals from core to surface. This project aims to investigate and make new discoveries on the unique properties of liquid metals. Liquid metals have traditionally been used in mining, for switches, barometers, heat transfer units, and coolers and heaters. However, recent discoveries have indicated that liquid metals have untapped potential in applications for creating systems with extraordinary physical and chemical properties. This project will expand our knowledge of liqu ....Re-discovering liquid metals from core to surface. This project aims to investigate and make new discoveries on the unique properties of liquid metals. Liquid metals have traditionally been used in mining, for switches, barometers, heat transfer units, and coolers and heaters. However, recent discoveries have indicated that liquid metals have untapped potential in applications for creating systems with extraordinary physical and chemical properties. This project will expand our knowledge of liquid metals by exploring liquid metals as electron rich solvents and investigating new properties to develop future applications in electronics, optics, catalysts, thermal devices and bio systems.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL230100178
Funder
Australian Research Council
Funding Amount
$3,343,741.00
Summary
Nonmetals for green catalysis. This proposal aims to develop nonmetal materials and technologies for frontier green catalysis that is targeted to contaminant degradation and chemical synthesis by catalytic oxidation processes. The project will systematically unveil the intrinsic nature of nonmetal elements in heterogeneous catalysis, develop rational design principles, and achieve scaling-up of intelligent nanomaterials and integrated green catalytic systems for high reactivity and selectivity. ....Nonmetals for green catalysis. This proposal aims to develop nonmetal materials and technologies for frontier green catalysis that is targeted to contaminant degradation and chemical synthesis by catalytic oxidation processes. The project will systematically unveil the intrinsic nature of nonmetal elements in heterogeneous catalysis, develop rational design principles, and achieve scaling-up of intelligent nanomaterials and integrated green catalytic systems for high reactivity and selectivity. This cross-disciplinary research will deliver benefits to Australian industry in water treatment and fine chemical synthesis, foster Australian R&D in green technologies, synthesise catalysts from natural resources and industrial waste, and promote strong sustainability outcomes.Read moreRead less