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seeks an ambitious, motivated, structured, and collaborative postdoc to join the nuclear fuel materials team to study the thermal stability and pellet-cladding mechanical and chemical interaction
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processes and the use of economic theory and quantitative methods as key analytical tools. Major research areas include economic growth and structural change, innovation, energy and sustainability
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at a leading technical university that generates knowledge and skills for a sustainable future. Engaged and ambitious colleagues along with a creative, international and dynamic working environment
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screening facility FragMAX, supporting structural biology research aiming at understanding biology at a molecular level with applications in drug development and biotechnology. BioMAX has been in user
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using an underlying network structure. Moreover, many systems exhibit a sensitive dependence on certain parameters, i.e. small changes to the latter can result in fundamental changes of the properties
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sustainable forest management under climate change. Tree structural traits, including crown shape, branching patterns, and competition effects, strongly determine individual tree vitality, stand dynamics, and
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to groundbreaking discoveries for next generation of materials and devices. Collaborative environment: Be part of a dynamic team of researchers dedicated to pushing the boundaries of bioengineering and materials
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to join a cross-disciplinary project at Chalmers University of Technology , exploring how magnetic fields can be used to improve structural batteries. In this role, you will contribute
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marine organisms such as shells and mussels. Through this project, we hope to identify potential changes in the structure, growth and properties of the crystals and thus valuable insights into how plastic
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a dynamic research environment with international collaborations and have the opportunity to develop independent research skills while contributing to new knowledge in nutrition and public health. Our