Understanding and improving rare earth corrosion inhibitors. This project aims to investigate rare earth corrosion inhibitors by an interdisciplinary program of chemistry and materials science.
The project will generate new knowledge as to how rare earth corrosion inhibitors function and can be improved.
Expected outcomes include a better understanding of inhibitor induced protective films and improved inhibitors.
Significant benefits are eventually better protection of infrastructure from .... Understanding and improving rare earth corrosion inhibitors. This project aims to investigate rare earth corrosion inhibitors by an interdisciplinary program of chemistry and materials science.
The project will generate new knowledge as to how rare earth corrosion inhibitors function and can be improved.
Expected outcomes include a better understanding of inhibitor induced protective films and improved inhibitors.
Significant benefits are eventually better protection of infrastructure from corrosion with greener inhibitors and a new bulk use for rare earths to aid Australia’s emerging rare earth industry.
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Multi-modal virtual microscopy for quantitative diagnostic pathology. This project will contribute to the next generation of virtual microscopy systems that provide innovative features capable of significantly increasing the adoption of digital imaging technology throughout the field of diagnostic pathology. These tools will especially contribute to the screening and diagnosis of cervical, lung and bladder cancer.