24 computational-mechanics-phd Fellowship positions at Monash University in Australia
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skilled researcher who brings: A PhD in Computational Neuroscience, Physics, Engineering, Computer Science, Psychology, or a related discipline Strong quantitative and programming skills (preferably MATLAB
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. Build and sustain long-term quantum computing and simulation capabilities at Monash University. About You You will bring: PhD in Computer Science, Electrical Engineering, Maths, or Physics Expertise in
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of reaction mechanisms using voltammetry and strong expertise in physical electrochemistry and machine learning. About Monash University At Monash , work feels different. There’s a sense of belonging, from
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that includes biologists, medicinal chemists, and structural biologists to design and execute computational drug discovery projects. Applicants will need to hold a PhD in an appropriate discipline (ie
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, developing a survey and conducting a quantitative analysis. To be successful in this role, you should have a degree and a PhD in Psychology or a closely related field. You should also possess strong training
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will conduct independent and collaborative research, publish in high-impact journals, and present findings at major international conferences and workshops. You will also mentor and support PhD and
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closely with academic staff and provide guidance and support to junior researchers and students involved in the project. Ideally you will have a PhD in Economics of Education or expect to receive it by
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mechanisms behind heart defects and cardiomyopathies using cutting-edge technologies such as human induced-pluripotent stem cells (hiPSCs), CRISPR gene editing, 3D organoids, and engineered heart tissues. Our
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design coordination, addressing inefficiencies that arise when diverse expertise (e.g. structural and mechanical engineering) intersects during the design process. This role involves developing
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the opportunity to contribute to impactful antimalarial drug discovery projects, focusing on the mechanisms of action and resistance of both existing and novel antimalarials. The ultimate goal is to develop