Researcher position at SlovakION (# of pos: 3)

Updated: about 2 months ago
Job Type: FullTime
Deadline: 31 May 2021

We are opening three researcher positions at the Advanced Technologies Research Institute STU MTF (ATRI) within the SlovakION project, where the following topics are of interest:

  • Functional thin film synthesis
    • application fields of interest: tribology, catalysis, optics, electronics, optoelectronics
  • Radiation tolerant materials
    • materials design for fusion, spallation, and space applications
    • alloys, refractory materials, ultra-wide band gap semiconductors, radiation resistance/response testing, and evaluation
  • Ion implantation/irradiation processing
    • ion beam synthesis of layers, and nanostructures, ion beam mixing, surface nanopatterning, ion-induced phase change
  • Group 10, and 11 transition metal oxides with high oxidation states
    • catalysis, superconductors
  • Materials characterization
    • Integrating analytical techniques in a common framework, interpretation of data focusing on new, uncharacterized phases and interdisciplinarity
    • Ion beam analysis, microscopy, spectrometry, correlative imaging

The applicants are free to choose from these topics and are expected to submit a plan for research, they plan to conduct within this position. The research plan is expected to make use of equipment available at ATRI (see in the workplace description below), but not limited to. Further development of existing scientific cooperation of the applicant with other parties within their planned activity at ATRI is welcome and adds value to the application.

Contract duration: 01/07/2021 - 30/06/2023

Gross monthly salary: 1900 - 2100 EUR

Description of the workplace:

The Advanced Technologies Research Institute within the Faculty of Materials Science and Technology in Trnava, Slovak University of Technology in Bratislava runs an ion beam centre equipped with a 6 MV Tandem ion accelerator and a 500 kV ion implanter, sputter deposition systems and plasma immersion ion implantation. See details here ( ) and here ( ). Further infrastructure is being installed in near future (target is end of 2021/beginning 2022):

  • Two experimental vacuum chambers for plasma-based deposition and implantation (including HiPIMS, Knudsen cell, PIII, sample heating/cooling, Langmuir probes, mass spectrometers)
  • SEM with Gallium FIB and EDX
  • XPS/UPS/AUGER/ISS/ARPES and UHV IR spectroscopy system
  • AFM-Raman correlative imaging system incl. TERS capability.
  • Time-of-Flight Elastic Recoil Detection Analysis system at the 6 MV tandem accelerator.
  • High-current He- and H- ion source for high energy ion implantation and high-fluence ion irradiation experiments
  • Other available equipment available at the faculty, see here:

    ATRI also has good access to nanoindentation (Hysitron TI Premier), Barkhausen noise analysis, positron annihilation spectrometry and TEM within the University and cooperating institutes.

    In case further information is needed, please contact )

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