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student to contribute to the development of CA, focusing on the engineering of mammalian cell lines with desirable properties for upscaled cultivated meat production. Such properties include immortalisation
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student to contribute to the development of CA, focusing on the engineering of mammalian cell lines with desirable properties for upscaled cultivated meat production. Such properties include immortalisation
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these interact to form a living cell that sustains itself, grows and divides. The BaSyC (‘Building a Synthetic Cell’) initiative is a collaborative 10-year research program that aims to understand ‘how life works
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the nanoscale? To learn how the machinery of life operates at the molecular scale, we need to understand dynamic structural changes underlying many essential biomolecular processes in the cell. This requires new
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) the emergence of new network architectures like cell-free networks, (2) novel network services, such as joint communication and sensing, and (3) the evolution to space-air-ground networks. Amidst this complexity
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“Flow4Algae”. This experimental project aims to understand the multiscale fluid dynamics of living microalgae suspensions. We are particularly interested in the interplay between flow conditions, cell
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well as the heterogeneity of the required base stations. This complexity is further exacerbated by (1) the emergence of new network architectures like cell-free networks, (2) novel network services, such as joint
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the nanoscale? To learn how the machinery of life operates at the molecular scale, we need to understand dynamic structural changes underlying many essential biomolecular processes in the cell. This requires new
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-organisms. Using graphene drums these tiny vibrations can now be resolved at the single-cell level. Recently, at TU Delft we demonstrated that graphene-based nanomotion technology can be used for fast