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industrial project, driven by Jungbunzlauer’s commitment to “Naturally Better ingredients”. You will design a scalable manufacturing process for a commercially important ingredient used across food and
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conventional analysis methods struggle. The work is inherently interdisciplinary, combining elements of experimental NMR, chemical kinetics, mathematical modelling, and computational data analysis, and the
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ambitious student, offering an exciting opportunity to explore main group-mediated small molecule activation and catalysis using heavy pnictogen elements (Sb and Bi) as sustainable alternatives to transition
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application and development of methods for advanced NMR investigations of hyperpolarised solids. This will involve varying proportions of hands-on experimentation, theoretical work, numerical simulations, and
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/computational element. Students will develop a strong background in quantum information theory, and one or more of: open quantum systems; quantum stochastic processes; tensor networks; quantum thermodynamics; and
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, nonlinear dynamical systems, robotics, and formal methods to develop principled models and algorithms for distributed decision-making in complex and uncertain environments. Your research The candidate will
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particular, we will use topology and shape optimisation methods to compute the optimal domain shapes that can stabilise solutions with desired/prescribed properties. We will use methods from inverse problems
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laser pulses, you will generate and control THz-frequency electromagnetic fields capable of switching magnetic states on picosecond timescales, far faster than conventional microwave-based methods
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the investigation and realization of improved microwave probe design, data processing, and visualization techniques to provide a robust method of data analysis, flaw characterization and sizing. AI/machine learning
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methods to produce them. Building upon the group’s prior work in this area (millerresearchgroup.co.uk),[8-14 ] this PhD will involve the design and chemoenzymatic synthesis of a new nucleoside and