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Postdoctoral Research Fellow - Jones Lab Chemistry Dana-Farber Cancer Institute Boston, MA Full Time Overview The Jones Lab is developing next-generation covalent chemical biology with the objective
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Jan. 2026, based in the University of Birmingham UK. This position will use further develop the novel AI/machine-learning (ML) approach in Chen et al. (2022 & 2024, Nature Geoscience ) and apply
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Research Fellow (Fusion Shielding Materials) - School of Metallurgy and Materials - 105638 - Grade 7
variety of research methods, such as scientific experimentation, literature reviews. Analyse and interpret data Contribute to developing new models, techniques and methods Disseminating research results
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to public understanding of the discipline. Contribute to generating funding Main Duties The responsibilities may include some but not all of the responsibilities outlined below. Develop research objectives
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, interdisciplinary collaboration, and potential for real-world impact and commercialization are key elements of the evaluation. About the fellowship The KAUST Global Fellowship is designed to prepare emerging research
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expected to plan appropriately for their own future career development, which may include networking and submitting funding applications. This is a fixed term post of up to 20-months duration. Main Duties
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experience in a number of the aspects is required. The role will also offer the opportunity to contribute to the development of research strategies within the group as well as cosupervise masters students in
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The responsibilities will include: Develop research objectives and proposals for further BioFlare research, with assistance of a mentor if required Contribute to writing bids for research funding Complete analysis and
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transplantation. We are looking for a highly motivated candidate with a PhD degree interested in using microbiological methods with the aim of developing novel strategies to improve bone marrow transplantation and
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development and regeneration. Our research combines in vivo genetic models, in vitro organoid systems, advanced imaging, and high-dimensional sequencing approaches to uncover fundamental principles by which