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This 3.5 year PhD project is fully funded for UK students. Your tuition fees will be paid and you will receive a tax free stipend set at the UKRI rate (£20,780 for 2025/26). We expect
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, and optimization of AI-integrated hardware architectures, all of which are highly valued in both academia and industry. Beyond technical skills, students will develop project leadership, scientific
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aligned subjects The Project start dates: October 2025 – Home students only January 2026 – Home and International students Supervisors: Aligned programme of study: PhD in Chemical Engineering Mode of study
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advise architectural studies for future fuel cell powered LH2 aircraft. While working on this exciting research project, you will be provided with: A fully funded 3 year full-time PhD - £20780 tax-free
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and eligibility The studentship covers: This studentship is suitable only for applicants eligible for “home fee” status . Full time PhD tuition fees for a student with a home fee status (£5,006 per
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, and effective communication skills. Previous programming or experimental experience is advantageous but not mandatory. Funding Self-funded. The student needs to support the PhD tuition fees (£5,006/year
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algorithms, validated navigation architectures, and new insights into next-generation intelligent mobility solutions. The student will undertake two industry placements at Spirent, use high-tech simulation
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of Applied Physics is looking now for a Doctoral Researcher (PhD student) to pursue a degree in the field of 2D nanodevices and condensed matter physics (especially in low-dimensional correlated materials
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maritime and autonomous. You will have a prior background in naval architecture, ocean engineering and mechanical engineering. You should be already familiar with the majority of simulation and experimental
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effort between School of Engineering and School of Chemical Engineering at Aalto University supported by our industrial partners. The PhD student to be jointly supervised by two supervisors; Prof. Hamid