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motion. We eventually plan to use the new designs together with the recent developments made at TU Delft on using graphene-based nanomotion technology for fast drug screening. The vacant position is in
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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
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Job related to staff position within a Research Infrastructure? No Offer Description Nanomechanical resonators made of two-dimensional (2D) materials, such as graphene, have been long believed to be
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to their extraordinary properties. Graphene, for instance, stands as the strongest, most impermeable, and conductive material known to date. There is a myriad of applications where graphene could find its way. However
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to their extraordinary properties. Graphene, for instance, stands as the strongest, most impermeable, and conductive material known to date. There is a myriad of applications where graphene could find its way. However
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actuator applications in modern technology. The advent of two-dimensional materials, and the ability to fabricate atomically thin membranes like graphene, promises further device downscaling, enabling
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engineering problems. In this project we will look at ultra-thin materials, which are at the forefront of technological development due to their extraordinary properties. Graphene, for instance, stands as the