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interventions for frailty, the development and delivery of a bespoke intervention designed for South Asian communities. The research will use a mixed methods approach to this feasibility study including
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structural biology, applying advanced methods to determine and analyse protein structures that underpin enzyme function and redesign. Generate and interpret structural data to inform and validate computational
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conditions (MLTC) by adopting a bio-psychosocial design. We will design, evaluate, and implement a personalised multisectoral intervention called CO-ACTION employing diverse research methods and approaches
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goal of this project is to perform a coherent control experiments with a levitated particle, in the classical and ultimately in the quantum regime. We ultimately aim to generate experimental methods
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theoretical, computational and experimental methods and our aim is to provide an environment in which these different approaches can be combined and focused on particular topics of practical importance. You
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for conventional noise control methods. Acoustic metamaterials offer a promising alternative by breaking their acoustic limitations and enabling highly efficient and environmentally friendly noise control solutions
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high-quality laboratory research to develop and test novel diagnostic methods for heavy menstrual bleeding. They will work closely with clinicians, research nurses, and study participants to integrate
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noise, particularly its low-frequency tonal components, poses significant challenges for conventional noise control methods. Acoustic metamaterials offer a promising alternative by breaking their acoustic
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professional development, exploring new tools and methods relevant to clinical trial applications. About You The successful candidate must have a PhD in Bioinformatics, Computational Biology, or a closely
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methods to integrate multimodal health data, supporting personalised predictions and decision-making in healthcare. You will work under the direction of the Principal Investigator, Dr Rahman Attar, and