144 development "https:" "https:" "https:" positions at Chalmers University of Technology
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on this project. About us At the Department of Life Sciences , we bring together biology and technology to develop sustainable solutions for the future — from food and medicine to energy — driven by curiosity
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of Microtechnology and Nanoscience advances the frontiers in quantum technology, nanoscience, photonics and future electronic systems - for technical and societal development. Our cross-disciplinary approach gives
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Do you want to contribute to groundbreaking research in the development of a theoretical framework and numerical algorithms for evolving stochastic manifolds? This is an exciting opportunity for a
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and interact. We pioneer new methods for prediction, prevention, diagnostics and treatment of diseases. In the Division of Chemical Biology , we combine and develop protein engineering, synthetic
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Group, https://www.chalmers.se/en/departments/e2/research/communications-antennas-and-optical-networks/communication-systems/ , employing around 45 people, including 8 faculty and 25 PhD students. During
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quantitatively describing the complex functioning of living organisms. We develop technologies that contribute to human health and biosustainability. About the research project Microbial cell factories
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the Division of Chemical Biology , we combine and develop protein engineering, synthetic chemistry, nucleic acid technology, and state-of-the-art biophysical methods to address cutting-edge questions in biology
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excellent research, innovation, and education, we contribute to the development of future industrial value chains. In the division ofMaterials and Manufacture you’ll join a friendly, international team
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creative, collaborative, and equitable work environment. Our strength lies in utilising and combining experimental, digital, and qualitative approaches to develop solutions and processes. The division
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spectrometry. The project involves developing characterization methods using mass spectrometry (FT-ICR, TOF-SIMS) and imaging techniques (SEM, TEM) for both biological and inorganic materials. Responsibilities