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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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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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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
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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