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.
Discovery Early Career Researcher Award - Grant ID: De130100090
Funder
Australian Research Council
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.
Discovery Early Career Researcher Award - Grant ID: DE220101093
Funder
Australian Research Council
Funding Amount
$441,000.00
Summary
Non-flammable quasi-solid electrolytes for lithium batteries. This project aims to develop non-flammable and sustainable quasi-solid electrolytes for lithium batteries with high energy density, excellent safety and long cycling life. The deployment of high-energy lithium batteries has been greatly impeded by the poor electrode|electrolyte compatibility, and safety concerns originating from flammable liquid electrolytes. This research will tackle these challenges by in-situ fabricating non-flamma ....Non-flammable quasi-solid electrolytes for lithium batteries. This project aims to develop non-flammable and sustainable quasi-solid electrolytes for lithium batteries with high energy density, excellent safety and long cycling life. The deployment of high-energy lithium batteries has been greatly impeded by the poor electrode|electrolyte compatibility, and safety concerns originating from flammable liquid electrolytes. This research will tackle these challenges by in-situ fabricating non-flammable quasi-solid electrolytes, and stabilising the electrode|electrolyte interfaces. The project is expected to facilitate the commercialisation of high-performance quasi-solid lithium batteries, and leap forward the progress of clean energy storage technologies that are efficient, durable, safe and reliable.Read moreRead less