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the interfacial strength, nano-scale 3D structure and residual stresses in advanced power electronic materials (INTERVENE), and is fixed-term of 18 months. Power electronics is a major technology sector for the UK
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form different structures. Therefore, within a given territory, a single morphogen can generate multiple outcomes. This project will experimentally study how morphogens work and, more specifically, how
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to self-organize into complex structures. Our approach is to develop sophisticated mathematical models – informed by state-of-the-art biological knowledge and experimental data – to understand
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requirements, relying, for example, on increased granularity and lower material budget. You will play a leading role in evaluating the performances of a number of prototype test structures and stitched sensors
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the Euclid satellite, we investigate fundamental questions about the nature of celestial objects, the evolution of galaxies, and the structure of the Universe itself. We are also actively involved in
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of the project. Apply established techniques and develop new methods inspired by Bayesian methods and statistical physics methodology for understanding the emergence of structure within cortical organoids and
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an awareness of University structures, policies and procedures and relevant issues in the higher education, research, social and political environment Knowledge, Skills and Experience Ability to work well as
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status, race, religion or belief, sexual orientation, or trans status or history. More information on our structures and initiatives around EDI, including information on staff diversity networks, can be
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subject. You should have a high level of competence in biochemistry and structural biology as well as relevant experience demonstrated by first author publications in high-profile journals. The ideal
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cytometry, genomics, and molecular biology. We maintain close collaborations with immunologists, structural biologists, and clinicians. Essential Qualifications and Skills We are seeking a creative