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structure? The Department of Chemistry and interdisciplinary Nanoscience Center (iNANO) at Aarhus University invites applications for a 2-year postdoc position within the QforCAS project. The project focuses
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Postdoctoral position in structural and biophysical analysis of plant hormone transporters within...
to investigate the molecular mechanisms of plant hormone transport. The position offers the opportunity to work within an international, interdisciplinary environment, combining structural biology, biophysics, and
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to investigate the molecular mechanisms of plant hormone transport. The position offers the opportunity to work within an international, interdisciplinary environment, combining structural biology, biophysics, and
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and 7 months to work on mitochondrial membrane protein complexes using structural biology methods, cryo-ET and STA. Expected start date and duration of employment The starting date is 1st February 2026
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and 7 months to work on mitochondrial membrane protein complexes using structural biology methods, cryo-ET and STA. Expected start date and duration of employment The starting date is 1st February 2026
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the application deadline will be taken into consideration. If you wish to add a referee after you have submitted your application, you must send this person’s details (name, job title, place of work, and email
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positions is available at: Career at The University of Copenhagen – University of Copenhagen (ku.dk) . For more about postdoc positions and qualification requirements, see the Job Structure for Academic Staff
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, we are looking for a candidate who has: Experience with qualitative research methods, particularly semi-structured interviews and stakeholder analysis, is required. Familiarity with agri-food systems
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system with an open source data structure. The setup is ready for developmed of digital twins to improve and scale the technology to offer the world a new pathway to sustainable proteins. In a
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modelling of diffuse scattering using X-rays, electrons and neutrons to establish local structure and correlated disorder in advanced materials and including ultrafast femtosecond science. The project