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systems (https://metamic3.isas.de/ ). Using advanced metaproteomics, METAMIC 3 aims to unravel the functional dynamics of microbial communities and their response to microbial effectors such as
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of tomorrow and creating novel solutions to major global challenges. Our community is made up of 120 nationalities, 14 000 students, 400 professors and close to 5000 faculty and staff working on our dynamic
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dynamic team of excellent researchers and be supported by a supervisory team providing structured PhD mentoring. For more information please contact Prof. dr. Veerle Vandeginste, mail: veerle.vandeginste
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: Design, fabricate, and test micro- and nano-structures at MiNaLab using lithography to create customized platforms (e.g. patterns, (confined) channels, mazes) for studying cancer cell dynamic, with a
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settings. Very good self organization. Desirable Skills Very good knowledge of fluid–structure interaction (FSI). Good experience with digital twins, model updating, or structural dynamics. Understanding
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the underlying principles. For us, it is equally important to study the impact of materials on biological processes as well as the impact of biological processes on materials. Our ambition is to foster a dynamic
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, we are looking for candidates who have completed their PhD no more than three years before the application deadline. The position is based in the discipline of Sociology, within the Department
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material platforms exhibiting time-varying responses. Using adjoint-based optimization and spatial structuring, to realize complex time-modulated medium dynamics with realistic material constraints and
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remains poorly understood how such systems learn and what signatures learning leaves in their physical structure and energy landscape. This project aims to build the theoretical foundations of physical
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life cycle assessment based on BIM models. • Development and structuring of a database to support dynamic life cycle assessment. • Implementation of blockchain solutions for circular products, integrated