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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
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community of PhD students here is well supported and socially welcoming. Application / Contact Interested applicants should contact the project leader, Jan Niess, by email at Janhendrik.niess@usb.ch , using
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layers, thorough FLA processing, and extensive materials characteri-zation using XRD, electron microscopies, TOF-SIMS, electrochemical methods, etc. Modeling and simulations should help us to explain
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through the electronic application process. Each recommendation consists of two elements: A form to be filled out by the referee An additional letter with the referee’s comments Your referees
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plasmon resonance (LSPR) are strong photon-induced collective hot-electron coupling effects, which can create intense and sensitive electromagnetic near field. SPR and LSPR have found intriguing successes
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use low-temperature, high magnetic field scanning tunneling microscopy (STM) and tuning fork atomic force microscopy (QPlus AFM), combined with electron spin resonance techniques. Your profile Required