94 renewable-energy "European Molecular Biology Laboratory (EMBL) " positions at University of Oslo
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marginalising vulnerable people. The project aims to generate new methodologies for evaluating how uncertainty shapes the way uncertainty shapes energy justice concerns and outcomes of renewable energy projects
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for understanding how uncertainty shapes trajectories of change in renewable energy projects. The work brings together thinking on uncertainty and energy justice from across disciplines, with a primary focus on
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for Materials Science and Nanotechnology (SMN) comprises UiO's focus on renewable energy, materials science, and nanotechnology. SMN is an interdisciplinary collaboration between five research groups in physics
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programmes, alone and jointly with other departments: Renewable energy systems, Cybernetics and autonomous systems, Robotics and intelligent systems, and Information security. ITS also hosts the Centre
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departments: Renewable energy systems, Cybernetics and autonomous systems, Robotics and intelligent systems, and Information security. ITS also hosts the Centre for Space Sensors and Systems (CENSSS), which
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for Materials Science and Nanotechnology (SMN) comprises UiO's focus on renewable energy, materials science, and nanotechnology. SMN is an interdisciplinary collaboration between five research groups in physics
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Science and Nanotechnology (SMN) is an interdisciplinary focus field for material and energy research at the University of Oslo. SMN has focused on basic research in renewable energy and environmentally
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and cell to cell interactions in vitro and in vivo. Thanks to a close collaboration with the Physics Dept. and the Medical Biology Dept. at UiT – The Arctic University of Norway and the Biophotonics
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, and spearheads the MN faculty’s efforts for sustainable energy solutions. The Centre comprises UiO’s focus on renewable energy, materials science, and nanotechnology. Qualification requirements
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at bulk and single-cell resolution, (2) integration of regulatory networks with multi-omics data, (3) fine-tuned analysis of genome-wide regulatory networks. The group has recently applied these tools