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-quality, impactful research in high-temperature materials science, with a particular focus on phase transformations in ceramics, metals, and other solid-state systems. The PhD candidate will join the MSE
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, this project will Investigate current DES(s) on “controlled” mixed battery chemistries; specifically NMC:LFP ratios. It will also develop an extraction process to optimally recover metals from NMC:LFP black mass
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% of the battery mass, is a soft plastic in every LIB cell to prevent short circuits. The current state-of-the-art LIB recycling plant primarily focuses on recycling the precious metal from waste LIBs. The separator
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electrolysis cells, based on alkaline water electrolyser characterised by low current density and acidic polymer electrolyte membrane electrolysis cell with precious metal electrodes, however, still suffer from
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pipelines (80% plastic, 20% metal) for distribution. Despite this potential, there are concerns regarding the compatibility of the materials used in gas transport with hydrogen and the feasibility
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critical minerals/metals concentrated in waste streams. The Project comprises a review of the waste streams from Tronox’s vertically integrated minerals sands mining to pigment (TiO2) manufacturing processes
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with leading researchers in glass science/engineering and diffraction physics/crystallography in Australia and around the world. "Local structure and symmetry in metallic glasses" (with Assoc Prof Scott
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I supervise a wide range of projects in surface and materials physics, with a particular focus on novel electronic materials such as topological insulators where electrons can be transported without
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of Jerusalem – Zelman Cowen Academic Initiatives (ZCAI) Joint Project (Modern X-ray detectors based on 2D metal halide perovskites). These projects aim to develop inorganic nanocrystals with controlled size