35 mechanical-engineering-"MIT" Postdoctoral positions at Aarhus University in Denmark
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The Section for Electrical Energy Technology under the Department of Electrical and Computer Engineering (ECE) at Aarhus University invites applicants for a two-year postdoctoral position, offering
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The Section for Electrical Energy Technology under the Department of Electrical and Computer Engineering (ECE) at Aarhus University invites applicants for a two-year postdoctoral position, offering
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technology studies (STS) with a focus on information infrastructures for territorial management. The postdoc position is affiliated with the research project Governance by Infrastructures funded by the Aarhus
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Are you interested in conducting cutting edge experimental research contributing to green energy transition? Then the Department of Mechanical & Production Engineering at Aarhus University invites
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major challenges facing society, such as pollution and pollution control mechanisms, management of land, soil, water, air and biodiversity, protection of ecosystem services, and climate change. Advisory
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, Stockholm, Sweden; Broad Institute of MIT and Harvard, MA, USA; University of Queensland, Queensland Centre for Mental Health Research; University of California Los Angeles, CA, USA; Icahn School of Medicine
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, economics, to policy analysis. Basic as well as applied research are conducted on some of the major challenges facing society, such as pollution and pollution control mechanisms, management of land, soil
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food hydrocolloid to stabilize small molecules in selected food systems and understand the involved mechanisms. The postdoc will work on this exciting project in collaboration with and mentored by
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at understanding the molecular mechanisms behind auxin transport at a molecular level. The selected candidate will investigate membrane proteins involved in auxin transport using a range of methods centered
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selective autophagy receptors (SARs) and various adaptor proteins. The overall aim of the project is to understand the selective and bulk autophagy mechanisms at the ultrastructural levels by studying