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Industry Laureate Fellowships - Grant ID: IL230100205
Funder
Australian Research Council
Funding Amount
$3,509,590.00
Summary
Recycling Innovations to Transform Electronic Waste into Green Metals. Essential materials needed to achieve sovereign capability and electrification goals are in critical short supply yet are being discarded in mountains of electronic waste. This Green Metals project aims to develop scalable technology to recover valuable metals from complex wastes, to be deployed locally and regionally. The significance of the proposal is it directly addresses key national priorities around reducing waste, boo ....Recycling Innovations to Transform Electronic Waste into Green Metals. Essential materials needed to achieve sovereign capability and electrification goals are in critical short supply yet are being discarded in mountains of electronic waste. This Green Metals project aims to develop scalable technology to recover valuable metals from complex wastes, to be deployed locally and regionally. The significance of the proposal is it directly addresses key national priorities around reducing waste, boosting recycling, creating advanced manufacturing capability. Outcomes expected are recovering metals needed for future products, scalable microrecycling solutions and new materials supply chains. Significant benefits include new jobs and skills, reduced waste, advanced capability, new business opportunities and markets.Read moreRead less
Industry Laureate Fellowships - Grant ID: IL230100116
Funder
Australian Research Council
Funding Amount
$3,359,464.00
Summary
Breaking through the manufacturing ‘glass ceiling’ for ZBLAN glass fibres. This project aims to develop innovative methods to improve the purity and manufacture scale of fluoride glass (ZBLAN) optical fibres to deliver faster and more efficient internet. This project expects to produce ZBLAN fibres with lower light loss than the best fibres to date by integrating innovations in glass science, materials purification, process automation and space manufacturing. Expected outcomes include industrial ....Breaking through the manufacturing ‘glass ceiling’ for ZBLAN glass fibres. This project aims to develop innovative methods to improve the purity and manufacture scale of fluoride glass (ZBLAN) optical fibres to deliver faster and more efficient internet. This project expects to produce ZBLAN fibres with lower light loss than the best fibres to date by integrating innovations in glass science, materials purification, process automation and space manufacturing. Expected outcomes include industrial scale production of ZBLAN fibres with 10 times better performance than existing production. The project should provide innovative new manufacturing methods and improved economic and social prosperity by increasing the availability of ZBLAN for a wealth of applications touching many aspects of Australian lives.Read moreRead less
Industry Laureate Fellowships - Grant ID: IL230100072
Funder
Australian Research Council
Funding Amount
$3,759,824.00
Summary
Unleashing the combined power of electrons and holes for quantum computing. Large scale quantum computers promise unprecedented power with applications ranging from searching large databases for images and video, to optimising traffic routing, cryptography, and simulating advanced new materials and drug designs. This Fellowship will partner with Diraq, a world-leading Australian company developing a revolutionary new silicon quantum computing technology, to solve key issues in the race to scale ....Unleashing the combined power of electrons and holes for quantum computing. Large scale quantum computers promise unprecedented power with applications ranging from searching large databases for images and video, to optimising traffic routing, cryptography, and simulating advanced new materials and drug designs. This Fellowship will partner with Diraq, a world-leading Australian company developing a revolutionary new silicon quantum computing technology, to solve key issues in the race to scale from small scale prototypes to industrially relevant quantum computers. It will integrate electrons and holes, semiconducting and superconducting functionalities, into a single platform, link with industrial partners, and reinforce Australia's leadership position in quantum computing technologies.Read moreRead less