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force microscopy (AFM), advanced fluorescence and confocal microscopy, and quantitative biophysics. The project aims to elucidate how mechanical properties and forces emerge from molecular and structural
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biological supramolecular structure and enable a completely new interface between biology and electronics. The goal is decipher the molecular structure of these fibers and elucidate the electron transport
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Ming dynasties. Much of the groundwork is still to be done, as literature on construction techniques and machinery is limited, and hardly any synthesis studies exist. Questions regarding which
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due to its capability to visualise internal structures. Recently, dynamic quantification of moving and/or deforming structures using X-ray imaging has also become possible. Workflows such as X-ray
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). For both PhD and Postdoctoral candidates: You hold a Master of Engineering Science or Engineering Technology in the fields of Mechanical engineering, Mechatronics or Robotic Engineering, or other
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maximum of 12 months) will be provided. Profile You hold a PhD in Biology, Physics, Mechanical Engineering, or equivalent (or you will have obtained it by the time you start work). You have a strong
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, comparative and population genomics, and the analysis of recombination patterns and structural variation. Depending on the candidate’s interests and expertise, there will also be opportunities to integrate