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Early Career Industry Fellowships - Grant ID: IE230100098
Funder
Australian Research Council
Funding Amount
$417,000.00
Summary
Hunting high and low: mapping ancient topography to find copper. Transitioning to a decarbonised society requires significant amounts of copper; however, preventing a systems-based exploration approach for copper is the lack of a first-order dataset of the Earth’s surface evolution, known as palaeogeography. This project aims to unearth potential areas of porphyry copper through deep time by developing innovative global palaeogeography reconstructions. Expected outcomes of this project include n ....Hunting high and low: mapping ancient topography to find copper. Transitioning to a decarbonised society requires significant amounts of copper; however, preventing a systems-based exploration approach for copper is the lack of a first-order dataset of the Earth’s surface evolution, known as palaeogeography. This project aims to unearth potential areas of porphyry copper through deep time by developing innovative global palaeogeography reconstructions. Expected outcomes of this project include new quantitative palaeogeography reconstructions, as well as the first well-constrained reconstructions of copper preservation potential. This should provide benefits such as an improved understanding of the porphyry copper lifecycle, with significant impacts for resource exploration and decarbonisation efforts.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100449
Funder
Australian Research Council
Funding Amount
$453,000.00
Summary
High-performance ammonia electrosynthesis devices. The project aims to develop a robust process for electrosynthesis of ammonia using devices manufactured by Melbourne company Jupiter Ionics P/L and innovative electrolyte components. Towards this aim, tailored ion-shuttling compounds need to be designed and investigated to enable continuous generation of ammonia in scaled-up flow devices. This is expected to generate new knowledge in practical electrochemistry, catalysis and sustainable synthesi ....High-performance ammonia electrosynthesis devices. The project aims to develop a robust process for electrosynthesis of ammonia using devices manufactured by Melbourne company Jupiter Ionics P/L and innovative electrolyte components. Towards this aim, tailored ion-shuttling compounds need to be designed and investigated to enable continuous generation of ammonia in scaled-up flow devices. This is expected to generate new knowledge in practical electrochemistry, catalysis and sustainable synthesis. Key project outcome is a technology for production of ammonia from renewables that is pollution-free and highly scalable in contrast to the current process. Resulting benefit to Australian agriculture businesses is a method for distributed fertiliser generation without the use of fossil fuels.Read moreRead less