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Field
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characterization, as stamping techniques, lithography, Raman, XPS, TGA, ssNMR, Tof-SIMS, EA, FTIR. C02 – Precision covalent chemistry for tailored mol2Dmat heterostructures (Dr. Chen) • Screening and synthesis
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, such as the wafers in lithography machines. Furthermore, to make supervisors performance aware and thus go beyond relatively straightforward safety and progress properties, system requirements related
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of the devices in the state-of-the-art DTU Nanolab cleanroom facilities using quantum dot imaging, lithography, etching and metal deposition. In both projects, the overall objective is to increase the efficiency
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(lithography, deposition, exfoliation and transfer of 2D materials). Characterization of 2D materials using Raman spectroscopy, AFM, and related techniques. Integration of such devices into low-temperature STM
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, Mott insulators, ferromagnets, multiferroics, etc. Your tasks will include: Fabrication of nanoelectronic devices in cleanroom facilities (lithography, deposition, exfoliation and transfer of 2D
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. in Physics, Materials Science, Electrical Engineering, or a related field by the start date. Preferred Qualifications: Hands-on experience in nanofabrication techniques (e.g., electron-beam lithography
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techniques (e.g., electron-beam lithography, dry/wet etching, metal deposition). • Background in low-temperature transport measurements or optical characterization of materials and devices. Appointment Details
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techniques (lithography-based) to manufacture highly controlled three-dimensional electrode structures. Strong collaboration is expected with other project partners in areas such as multiscale modelling
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Research Assistant/Associate in Photonics Integration of Graphene and Related Materials (Fixed Term)
, optoelectronics in graphene and related materials, physics of low dimensional systems, plasmonics, near-field optics, CMOS technology and nanofabrication including, e-beam lithography and laser writing, on-chip
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, interact with the other 4 PhD students of the project at ETHZ and TU Delft, and use state of the art methods such as Nanoindentation, Raman Spectroscopy, Digital Light Processing, Two-Photon Lithography