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operation under reactive capture conditions. Unravelling reaction mechanisms and catalyst structure-performance relationships using advanced characterisation techniques and computational tools. Collaborating
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the controls on the migration, accumulation and preservation of hydrogen in geological reservoirs. PhD Project 3: Structural and geomechanical characterisation of natural hydrogen systems This project will
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outcomes of this project include innovative methods for robot learning to improve shared movement quality. The PhD candidate will research movement and choreographic structures applied to human-robot
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methods that could accelerate the commercial adoption of printed solar and enable its use on structures that can’t support conventional panels. This is an exciting opportunity to contribute to the next
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biomineralization plays a critical role in biogeochemical cycling as well as has important environmental applications especially in the area of sustainable construction materials. But much of our knowledge in
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planes and enable the in-situ growth of active nanoparticles. These lattice planes inherently exhibit distinct properties, including defects, electronic structures, and a tendency to form nanoparticles
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-year project expense and development package of $13,000 per annum•a three-month industry engagement component with Xcel Sodium•a structured professional development and training program to develop your
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effective digital platform for analyzing, visualising and interpreting the condition of civil engineering structures. The digital twin models are created to represent the state and behaviour of structures in
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will align with and contribute to the Laureate Fellowship programme of research through a focus on possible future working lives in 2030 and 2050 in the construction/building industry. The wider agenda
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) investments could reshape the size, structure, and sustainability of Australian cities. The project brings together a world-class team of researchers from Monash University and international partners, including