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will develop models to understand non-equilibrium transport of orbital angular momentum in superconducting hybrid structures. This is part of an effort to determine the merits of superconducting
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-equilibrium transport of orbital angular momentum in superconducting hybrid structures. This is part of an effort to determine the merits of superconducting orbitronics. Such models can assist in developing new
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independently in a structured and goal-oriented manner, and possess excellent social and communication skills. Required: Master of science degree (MSc) or equivalent in botany, evolutionary biology or
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analysis. Experience with bioinformatics or ML-assisted sequence analysis. Familiarity with metagenomic library construction or screening methods. Candidates with experience in microfluidics will be
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should demonstrate the ability to work independently and in a structured manner, while also being capable of effective collaboration with others The applicant must exhibit both the ability and motivation
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candidate will drive the full experimental pipeline: computationally guided construct design; expression and purification of proteins; structural determination to resolve active-site architecture; activity
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be a good team worker, have the ability to work and develop new skills independently in a structured and goal-oriented manner, and possess excellent social and communication skills. Required: Master of
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be considered as positive The candidate should demonstrate the ability to work independently and in a structured manner, while also being capable of effective collaboration with others The applicant
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independently and in a structured manner. The applicant must demonstrate good collaborative skills and thrive in a cross-disciplinary research team. Applicants must be highly proficient in both written and oral
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our understanding of IAI mechanisms and develop innovative antibacterial biomaterials to improve patient outcomes. Structured around three core scientific pillars—regenerative medicine, biomaterial