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this project, the successful candidate will advance understanding of the fundamental molecular processes underpinning these electrochemical applications, leading to an acceleration of their development and
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positioned to benefit any applicant interested in a future career in healthcare technology. The University emphasises the clinical translation of innovative research to ensure real-world impact through
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(TQFTs), to study non-perturbative aspects of QFT. Projects are available in the study of formal aspects of generalized symmetries, semiclassical study of monopoles, and the applications of generalized
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Project Overview We are inviting applications for a PhD position focused on the development of porous materials for key challenges in decarbonization and thermal energy storage (TES). This project
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from Mechanical, Biomedical, Materials Engineering, or related disciplines. A strong motivation for interdisciplinary biomedical engineering research is essential. Applicants should hold (or expect
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avenues by enabling chronic, gut-based monitoring of neuroendocrine activity for applications such as closed loop therapeutics. The proposed PhD project sits at the interface of biomedical engineering
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applications (e.g. biodiversity). While the primary focus of this project in on headwaters and intermittent streams, the techniques and approaches developed by the student could be explored within the context
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(y.chen.22@bham.ac.uk ). Funding: The project is available through MIBTP funding program. For more details, please see: https://warwick.ac.uk/fac/cross_fac/mibtp/phd/supervisors/ychen References: Shropshire
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applications. The research will examine how key parameters—such as printing speed, toolpath strategy, material rheology, and geometric complexity—influence interlayer adhesion. In parallel, the project will
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towards developing an equitable working culture in which all students and staff can achieve their full potential. We welcome applications from all qualified applicants, and encourage applications from