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. This project will develop a scalable Dirac transistor technology based on large area integration of 2D and 3D Dirac materials (e.g., graphene and CoSi), and the realisation of high-performance device
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knowledge in synthesis of conductive inks, liquid metal and synthesis of graphene oxide. Knowledge in liquid metal based particles and composites. Knowledge in electrochemistry will be evaluated positively
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crystals such as graphene and transition metal dichalcogenides. The study of collective excitations is of paramount importance for two reasons. First, collective excitations govern the response
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