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Field
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research programme takes a mixed methods approach. The successful applicant will have a key role in the qualitative work package which aims to understand multi-stakeholder perspectives of the C(E)TR process
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structure–property relationships in metal halide perovskites at an atomistic level”. This collaborative project will establish structure-property relationships in hybrid metal-halide semiconductors
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component of comprehensive cancer care. STELLA is collaboration between International Cancer Expert Corps (ICEC), CERN, the Universities of Cambridge, Oxford, and Lancaster and partners from all African
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laboratory experience with culture of mammalian cells and elements of protein production (e.g. molecular cloning, transfection, cell culture, and/or protein purification). You should be able to learn
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methods of deterministic antiferromagnetic domain control through the application of external fields that modify the underlying crystal symmetries. The postholders will be expected to display initiative and
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methods for coating and stabilizing LFP cathodes often face limitations in durability and electrochemical efficiency. This research aims to overcome these challenges by applying innovative coating
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transplant rejection through cutting-edge spatial multi-omics and computational metabolic modeling. The role involves developing and implementing computational methods to integrate single-cell and spatial
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. The impact of C(E)TRs on clinical and other outcomes has not been extensively studied. The OptiCaT research programme takes a mixed methods approach. The successful applicant will have a key role in the
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’ group, led by Prof Achilles Kapanidis. The group is well known for developing single-molecule and single-cell fluorescence methods (Uphoff PNAS 2013; Robb, Sci Reports 2019; Zagajewski, Nature Comm Biol
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reactions using elemental fluorine (F2). This role is funded through a UKRI Future Leaders Fellowship as part of a larger fellowship. This project will study the ability of elemental fluorine to selectively