Sort by
Refine Your Search
-
? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Postdoctoral position in Development and application of computational methods
-
the development of theoretical or computational methods for quantum many-body systems, quantum computing, or machine learning. Strong leadership skills. Ability to collaborate and establish positive interactions
-
the fundamental understanding of electrical insulation, motivated by the need to develop novel engineering solutions. We work closely with leading manufacturers of power transmission and distribution equipment, and
-
research team and have a unique professional development opportunity to help shape and guide initial investments in laboratory infrastructure. Project background This postdoctoral position would build upon
-
have profound applications and potential in protection of environment and high health standards. Our group is engaged in development of various sensors targeting biological pollutants, measurement
-
sustainable energy and chemical process systems. Our research spans from the molecular level to the scale of systems. We develop methods to advance sustainable energy and chemical process systems from
-
, organic geochemistry and past environmental changes to work on developing the subsurface (mineral soil profiles) as geological archives for lipid biomarkers and soil organic matter composition. Your
-
exploring the molecular mechanisms underpinning bacterial evolution and resistance. This fully-funded, full-time position combined with ETH's excellent working conditions, makes the role especially appealing
-
presentation skills and excellent skills in technical/scientific writing. With the social and leadership competencies , ETH Zurich has developed a common understanding for a shared work culture. Kindly try to
-
avenues for their exploitation in next-generation technologies. Job description The researcher will be responsible for developing unconventional computing based on the behaviour of arrays of nanomagnets