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Field
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-temporally cooperate to result in an emergent macroscopic flow. Besides the immediate applications of the work to soft matter physics, and potentially also to the fracture mechanics of hard materials, yielding
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in neurodevelopment. This role will focus on data analysis and methods development to develop a better understanding of the mechanisms underpinning typical and altered neurodevelopment, brain structure
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on modelling of the transport, electrochemistry, and mechanics of next-generation lithium/air electrode materials and cell architectures. Using input data from experiments, the post holder will develop and
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on modelling of the transport, electrochemistry, and mechanics of next-generation lithium/air electrode materials and cell architectures. Using input data from experiments, the post holder will develop and
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semiconductors. The PDRA will be responsible for the characterisation of advanced power electronic materials to understand their mechanical behaviour, residual stresses in relation to their 3D microstructure. You
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interdisciplinary environment, first-class mechanical and electronics workshops, and access to the King’s core facilities network. King’s is committed to an inclusive, supportive research culture. Researchers benefit
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molecules, and understanding mechanisms of resistance, being undertaken in the medicinal chemistry labs in the IOI and therefore will work closely with chemists and biochemists within the IOI. The IOI’s
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these counterintuitive reaction-diffusion mechanisms. We are particularly interested in discovering genuinely novel classes of reaction-diffusion mechanism, beyond the classic paradigms from applied mathematics and
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tomato and pepper as model systems. Work in Oxford will build on our extensive experience in studying bacterial virulence mechanisms and the role of the plant microenvironment in disease development
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semiconductors. The PDRA will be responsible for the characterisation of advanced power electronic materials to understand their mechanical behaviour, residual stresses in relation to their 3D microstructure. You