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electrocatalysts During your PhD, you will interact closely with colleagues within the electrochemistry department, the Swiss Light Source, and international collaborators Where to apply Website https
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and flow field interactions Tuning of the CFD models with experimental results Artificial Neural Network training and development Scientific publications in journals and at conferences Supervision
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experience in atomistic simulations and catalysis is an advantage. Our offer We offer a stimulating, multidisciplinary research environment within the ETH Domain, where communication and interaction to create
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interviews on site. Shortlisted candidates will be invited to the FMI to present their scientific interests, discuss with recruiting group leaders, and interact with group members and current PhD students
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functional states along the activation pathway Investigate ligand-dependent modulation of receptor states Study receptor interactions with effector proteins The successful candidate will work in a highly
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for participant interactions Capacity for self-directed work within an interdisciplinary team Excellent written and oral communication skills in English and German Ability to work independently and collaboratively
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We are looking for highly motivated, committed, and creative individuals who can work in a team and have outstanding communication skills Working in a top-level research environment with advanced
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key contributions to novel personalized strategies of particles design for drug delivery, imaging, or diagnosis. Characterize, understand, the interaction of particulate materials with cells or tissues
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, wind turbine rotor blade aerodynamics, gust interactions, and fluid-structure interactions. The research focuses on unfolding the origin and development of unsteady flow separation and vortex formation