23 postdoc-molecular-dynamics-simulation Fellowship research jobs at Monash University in Australia
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Research Fellow in Dynamical Systems Job No.: 683312 Location: Clayton campus Employment Type: Full-time Duration: 2-year fixed-term appointment Remuneration: $83,280 - $113,025 pa Level A (plus 17
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accurate molecular discovery. You will work closely with academic researchers and industry partners to translate research outputs into real-world therapeutic design pipelines. Key responsibilities include
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understanding the molecular mechanisms behind heart defects and cardiomyopathies using cutting-edge technologies such as human induced-pluripotent stem cells (hiPSCs), CRISPR gene editing, 3D organoids, and
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thermalization in graphene metamaterials. The Research Fellow will work closely with a team of researchers to design and simulate graphene metamaterials for strong light-matter interactions in the mid-infrared
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modelling and machine learning to join and lead a dynamic international team of early-career researchers. This exciting role is part of a cutting-edge project investigating the structural integrity
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Fellow. This role offers the chance to be at the forefront of innovation in chemical biology, with a focus on developing cutting-edge tools for molecular sensing and imaging. Under the guidance of Dr
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into neurocognitive outcomes The Opportunity This is an exciting opportunity to join a dynamic research team advancing innovation in addiction and mental health treatment. As a Research Fellow, you will contribute to a
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supportive academic environment, we encourage you to apply and be part of our dynamic team. About Monash University At Monash , work feels different. There’s a sense of belonging, from contributing
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collaborative team advancing concussion care through innovation Research Fellow role driving consumer-led models in brain injury care The Opportunity Join a dynamic research team at the Monash-Epworth
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experience in at least one of the following would be highly regarded: (i) the theory and simulation of scattering, diffraction and imaging with high energy electrons or X-rays; (ii) solving inverse scattering