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Research theme: Materials 4.0 No. of positions: 1 Open to: UK applicants This 3.5-year project is funded by the School of Natural Sciences and is available for home students; the successful candidate will receive an annual tax free stipend set at the UKRI rate (£20,780 for 2025/26). Tuition fees...
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trucking—efficient onboard ammonia cracking technologies are urgently needed. This PhD project will focus on the computational design and screening of new materials for the decomposition of ammonia
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trucking—efficient onboard ammonia cracking technologies are urgently needed. This PhD project will focus on the computational design and screening of new materials for the decomposition of ammonia
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major output will be a decision support matrix that enables structured, multi-criteria analyses of land use decisions in future contexts. This matrix will translate quantitative and qualitative data
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the extracellular matrix, as well as advancing related technologies toward biomedical applications. The successful candidate will contribute to our lab’s microscale studies on the role of extracellular
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portfolio choice and life consumption problem will be studied under a fragile financial market with regime switching and risk uncertainty, where the transition matrix is no longer constant but depends
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. The successful applicants are expected to work with Dr. Yihan Zhang on “Precise Asymptotics in High-Dimensional Statistics using Random Matrix Theory and Statistical Physics ”. Applicants with mathematics
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approaches and innovations to work at the forefront of technological advances. Glycosaminoglycans (GAGs) are linear sugars that are displayed on all cells throughout the body as well as in the matrix. Like
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optimisation/decomposition techniques, providing superior computational capabilities compared to classic optimisation methods, to ensure system resilience using topology optimisation. Number Of Awards 1 Start
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the extracellular matrix, as well as advancing related technologies toward biomedical applications. The successful candidate will contribute to our lab’s microscale studies on the role of extracellular