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opportunity to contribute to the development of next-generation construction materials that are both low-carbon and climate-resilient. The research will focus on designing and testing functional materials
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refereed journals Research experience (e.g. characterisation, assembly, testing, etc.) in rechargeable batteries Hands-on experience of using characterisation techniques such as ToF-SIMS, SEM, etc
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knowledge gaps. The project involves both linear and nonlinear dynamics modelling and analysis, as well as experimental testing. An equivalent test structure will first be constructed in the vibration
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- inductively coupled plasma-mass spectrometry (SC-ICP-MS) will be used to track biouptake as affected by temperature. Proteomic analysis will be used examine mechanisms of NPP toxicity towards phytoplankton
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infection dynamics and collect samples for analysis. Restoration trials will be designed to test seed treatments and planting strategies under controlled and semi-natural conditions. The project will be based
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electronics. Following rigorous laboratory validation, field testing will occur in Plymouth Sound to capture real-time ionic fluctuations over multiple tidal cycles. Training Comprehensive training will cover
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. The project is co-sponsored by Spirent Communications, a world leader in navigation and testing technology. The project will advance intelligent and resilient navigation systems, contributing to the UK’s Net
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dynamics, control, and electrification—benefiting from industrial collaborations, advanced testing facilities, and a strong interdisciplinary environment. Candidate Requirements: Applicants should hold a
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. Key findings will be tested in additional species. The student will influence developing research directions based on initial screens. The student will learn gene-editing, molecular biology
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. The student will incorporate the fast-evolving understanding of magma-mush systems into numerical models simulating surface deformation from porous fluid (magma) flow, and test how predicted subsurface stress