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A fully funded PhD studentship is available for outstanding candidates to undertake cutting-edge research leading to a PhD in Chemical and Biomedical Engineering. The successful candidate(s) will
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processes to drive the selective conversion of captured CO₂ into targeted valuable products, such as sustainable aviation fuels (SAFs), methanol, ethylene, or polymer precursors. This multidisciplinary
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focus on resonant acoustic mixing (RAM) - a relatively novel and increasingly important class of process equipment attracting growing industrial interest across multiple sectors. At its core, the project
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Requirements Applicants should have, or expect to obtain, a first or upper second-class degree (or equivalent) in a relevant discipline such as Microbiology, Biomedical Science, Biotechnology, Chemical
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design, signal processing, and experimental validation of distributed SAR for airborne platforms. The core aim is to design, analyse, and experimentally evaluate distributed SAR architectures for airborne
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) develop analytic approaches for near real-time signal detection and escalation; and (c) test the usability and perceived value of decision-support outputs with end users through simulation and scenario
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, including precursor and co-reactant selection, process conditions and doped/multilayer structures to develop films with the desired optical and conductivity properties. The objective will be to develop a
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the psychosocial processes that drive behavioural tipping points; those moments when drivers begin to engage in maladaptive behaviour (e.g. rule-bending, blocking, queue-jumping). The student will also examine
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component’s melting point) concomitantly worsened by steady-state heat loads (up to ~15 MW/m2). Fourthly, transient heat loads, going up to a few GW/m2 pose a major structural damage challenge under plasma
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using conventional antimicrobial approaches. A critical early step in S. aureus skin colonisation is adhesion to corneocytes within the stratum corneum. This process is mediated by bacterial cell wall