Australian Laureate Fellowships - Grant ID: FL100100063
Funder
Australian Research Council
Funding Amount
$1,423,222.00
Summary
An Innovative and Advanced Systems Approach for Full Life-Cycle, Low-Emissions Composite and Hybrid Building Infrastructure. This project will develop a 'green' sustainable composite steel-concrete building frame system that reduces greenhouse gas emissions throughout the life-cycle of building construction, usage and deconstruction. It will eliminate the use of ordinary Portland cement, which is a major carbon dioxide producer, by using geopolymer concrete made from fly-ash, and will use econom ....An Innovative and Advanced Systems Approach for Full Life-Cycle, Low-Emissions Composite and Hybrid Building Infrastructure. This project will develop a 'green' sustainable composite steel-concrete building frame system that reduces greenhouse gas emissions throughout the life-cycle of building construction, usage and deconstruction. It will eliminate the use of ordinary Portland cement, which is a major carbon dioxide producer, by using geopolymer concrete made from fly-ash, and will use economic thin-walled, high-strength steel sections. Deconstructability is provided through bolted joints and by using tensioned bolts as shear connectors between the steel skeleton and concrete flooring. This project is underpinned by the extensive background of the candidate, and provides a very timely solution to a major contemporary engineering challenge facing Australia.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL130100171
Funder
Australian Research Council
Funding Amount
$2,863,442.00
Summary
Computers of the future: atomic-scale logic. Building upon internationally recognised leadership in the development of atomic-scale electronic devices, this project aims to achieve the ultimate in computer miniaturisation: to develop components for the world's first integrated circuit, where all elements are constructed on the atomic scale.
Australian Laureate Fellowships - Grant ID: FL120100038
Funder
Australian Research Council
Funding Amount
$2,645,586.00
Summary
Understanding and controlling the properties of Dirac electronic materials. This project will gain deep insights into a new class of materials that includes graphene, the thinnest possible plane of carbon. New electronic properties will be engineered in Dirac materials to make them valuable for applications in computing, sensors, and solar power generation.
Australian Laureate Fellowships - Grant ID: FL230100176
Funder
Australian Research Council
Funding Amount
$2,920,000.00
Summary
Computational design of frontier materials for sustainable technologies. This Laureate will establish a new and powerful computational materials research platform that uses cutting-edge ab initio calculations and artificial intelligence, to understand and design tailored structures that possess the required new and improved functionalities for tomorrow’s materials. In enabling the development of novel catalysts needed for the generation of green fuels and chemicals, and key quantum devices for q ....Computational design of frontier materials for sustainable technologies. This Laureate will establish a new and powerful computational materials research platform that uses cutting-edge ab initio calculations and artificial intelligence, to understand and design tailored structures that possess the required new and improved functionalities for tomorrow’s materials. In enabling the development of novel catalysts needed for the generation of green fuels and chemicals, and key quantum devices for quantum technologies, this Laureate promises timely support for Australia’s commitment to renewable energies, low emissions and its nascent quantum future. New and existing collaboration with leading international groups underpin significant national benefits including new disciplinary capacity and world-class research.Read moreRead less