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DTSTART;TZID=Europe/Berlin:20230512T080000
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DTSTAMP:20260526T061951
CREATED:20240227T163918Z
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SUMMARY:Synthesis and structural investigation of self-assembled cluster crystals from DNA-based nano-constructs
DESCRIPTION:https://www.fz-juelich.de/en/careers/jobs/2023D-033
URL:https://eu-softcomp.net/events/synthesis-and-structural-investigation-of-self-assembled-cluster-crystals-from-dna-based-nano-constructs/
CATEGORIES:Job Opportunities
ATTACH;FMTTYPE=image/png:https://eu-softcomp.net/wp-content/uploads/2023/05/Scope-of-FZJs-project.png
ORGANIZER;CN="Forschungszentrum J%C3%BClich GmbH":MAILTO:e.stiakakis@fz-juelich.de
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DTSTART;TZID=Europe/Berlin:20230517T080000
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DTSTAMP:20260526T061951
CREATED:20230517T100020Z
LAST-MODIFIED:20230517T100059Z
UID:4401-1684310400-1685725200@eu-softcomp.net
SUMMARY:PhD position at UniVe on "Topological materials for novel (opto)electronic switches" (deadline 31.05.2023)
DESCRIPTION:During the last 7 decades\, the miniaturization of silicon CMOS transistors has led to the development of electronic switches with increased speed and reduced power consumption and costs. As a result\, electronics is nowadays ubiquitous. However\, when these devices are reduced to nanoscale dimensions\, they suffer from thermal dissipation phenomena that compromise their performance. To overcome these limitations\, new switching mechanisms are necessary. Rather than being based on the transport of electric charge\, these switches should focus on unraveling and harnessing quantum phenomena. Researchers are currently investigating “topological” materials that could potentially offer access to transport phenomena without energy dissipation\, even in adverse measurement environments. The combination of electronic and spin properties has made the use of topological devices a great challenge. The focus of thisresearch will be on analyzing the electronic and optoelectronic properties of atomically thin compounds such as 2D materials with strong spin-orbit coupling\, with the goal of integrating them into novel electronic devices. Some of the research in this project may be performed in collaboration with the CNR-IOM in Trieste\, Italy.\nTASKS\nTasks will include but will not be limited to the following:\n• Synthesis of nanomaterials with techniques such as micromechanical cleavage\, physical and chemical vapor\ndeposition.\n• Characterization of their fundamental properties via a variety of microscopy and spectroscopy techniques.\n• Nanofabrication of devices through lithography techniques\, contact and vacuum deposition and etching.\n• Electronic transport and optoelectronic measurement performed on the final device.\nThe PhD student will also be required to spend a minimum of six months abroad in an institution TBD (possible\ndestinations could be the University of Cambridge (UK)\, The Institute of Photonic Sciences (Spain) or the Swiss\nFederal Institute of Technology Lausanne (Switzerland).\nPREREQUISITES\n• Good scientific (at least theoretical) background in the field of nanomaterials and characterization techniques.\n• Basic experience in the fields of electronics and/or optoelectronics.\n• Programming skills.\n• Advance knowledge of the English language \nDEADLINE FOR APPLICATION\n• The deadline for applications is on 31/05/2023.\n• More information on the application procedure can be found at this link: https://www.unive.it/pag/43333/\nCONTACTS\nFor additional information on the topic please do not hesitate to contact:\n• Dr. Domenico De Fazio\, domenico.defazio@unive.it\n• Dr. Giovanni A. Salvatore\, giovanni.salvatore@unive.it
URL:https://eu-softcomp.net/events/phd-position-at-unive-on-topological-materials-for-novel-optoelectronic-switches-deadline-31-05-2023/
CATEGORIES:Job Opportunities
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