22 additive-manufacturing Postdoctoral positions at Chalmers University of Technology
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functions, using digital twins and advanced validation techniques. You will work closely with leading Swedish industry partners in 6G and cloud computing, gaining unique opportunities to bridge academic
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leading Swedish industry partners in 6G and cloud computing, gaining unique opportunities to bridge academic research with real-world applications. Research environment The Optical Networks (ON) Unit
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mortality in aging populations, making this work a critical public health priority. The successful candidate will work in a collaborative environment that bridges academic research and industry application
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us The position is based in the Division of Materials and Manufacture at the Department of Industrial and Materials Science (IMS), Chalmers University of Technology. Our division conducts cutting
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critical public health priority. The successful candidate will work in a collaborative environment that bridges academic research and industry application, thanks to our partnership with a dynamic startup
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education at the bachelor's, master's, and doctoral levels, offering over 120 courses each year. We also have extensive national and international collaborations with academia, industry, and society. About
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national and international collaborations with academia, industry, and society. About the research project The Postdoc position will be placed in the Secura Lab led by Assistant Professor Muoi Tran
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teaching at undergraduate/master’s level Collaborate within academia and with society at large The position is meritorious for future roles in academia, industry, or the public sector. Contract terms
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optics, and quantum thermodynamics, and is highly relevant for emerging quantum technologies. As a postdoc, you will collaborate with a network of theoretical and experimental physicists at Chalmers and
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are looking for a curious and driven postdoctoral researcher to join a project focused on improving how we study and optimize medical treatments. The work centers on advancing a vessel-on-a-chip platform—a