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for artificial intelligence in life sciences, we benefit from high-throughput computing infrastructure to support advanced data analysis and integration. Profile We are looking for a motivated postdoctoral
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, WES/WGS, targeted NGS, DigiWest), a broad spectrum of molecular and cellular biology techniques, biochemistry and biophysics, computational drug repurposing, and de novo design of novel protein-based
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receiving government-funded financial support for salary or stipends (e.g., National Research Foundation Mid-Career Researcher Program, Jang Young-Shil Fellow, or similar programs), duplicate funding is not
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the end of 10th September 2025. (this is the only method that applications can be made). The start date is by mutual agreement. As part of your application, you should upload the following documents
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diffraction and related scattering methods, Raman spectroscopy, electron microscopy (SEM and TEM). Carry out electrochemical characterization of the materials in half cells as well as in full sodium ion battery
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quantitative behavior genetic methods to explore the association between neighborhood characteristics and various developmental outcomes. Outcomes we will explore include education, conduct problems, and mental
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to environmental changes in the ocean and what effects this has on ecosystems and biogeochemical cycles, particularly the uptake and storage of carbon dioxide in the sea. Methods used include the analysis
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. To achieve such an ambitious goal, the candidates are expected to bring us with new ideas, new technological advance and highly skilled in experimental methods. More details about our laboratory can be found
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researchers working with a wide range of specialisms and methods, giving you ample opportunity to exchange knowledge and experience with the various scientific fields within medicine and health. It is the
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, stimulation and transduction of T cells, and standard molecular biology methods, including cloning. Experience with flow cytometry and animal work is essential. Hands-on experience using cancer models in mice