Zahlavi

Mgr. Petr Malinský, Ph.D.

Employer:                 Nuclear Physics Institute of the CAS, Řež

E-mail:                      malinsky@ujf.cas.cz

Researcher ID:         G-9878-2014

Orcid ID:                   0000-0002-4236-1192

H-index (WOS):      17 (133 publications, 782 citations without self-citations)

H-index (SCOPUS): 18 (130 documents, Citations by 937 documents)

Education and specialisation:

2002 – 2007

Faculty of Education, J. E. Purkyně University in Ústí nad Labem

Specialization – Tutorship of Physics and Mathematics

2007 – 2015

Faculty of Science, J. E. Purkyně University in Ústí nad Labem

Specialization - Computer methods in physics and technology

Academic and scientific titles:

Mgr. (2007), PhD. (2015), RNDr. (2015)

Summary of the former positions:

2005 – 2007    Neutron Physics Department of Nuclear Physics Institute CAS v. v. i., Řež, student

2007 – 2015    Neutron Physics Department of Nuclear Physics Institute CAS v. v. i., Řež, PhD student

                        Topics – Metal nano-particles in polymers prepared by ion implantation and their characterization

2015 – 2018    Neutron Physics Department of Nuclear Physics Institute CAS, v. v. i., Řež, Post Doc researcher

Since 2018      Neutron Physics Department of Nuclear Physics Institute CAS, v. v. i., Řež, researcher

2013 – 2017    J. E. Purkyně University in Ústí nad Labem, tutorship of lectures and practical of Atomic and Nuclear Physics

Since 2017     J. E. Purkyně University in Ústí nad Labem, Assistant Professor

2011 – 2014    (2 weeks in each year) visiting researcher in Helmholtz Zentrum Dresden – Rossendorf. Experience: Ion beam analysis (Rutherford Backscattering Spectroscopy, RBS-channeling). 2011 – 2013 in terms of EU – SPIRIT infrastructure proposal

2021 – 2022 6 months scientific stay in Helmholtz Zentrum Dresden Rossendorf, in terms of KINEO II

Professional and scientific experience:

  • Ion beam analysis of solid surfaces
  • Modification of solids by Energetic Ion Macro- and Micro- Beam
  • Computer simulation of sample surface roughness influence on the Ion Beam Analysis
  • Thin layers preparation by magnetron sputtering
  • Image and data analysis by GWYDDION
  • Co-operation on the actuating software for new goniometer
  • Measurement of electric and sensory properties of organic substrates

Research experience:

Ion beam analysis research (RBS, ERDA, PIXE, RBS and PIXE channelling); accelerator technology, instrumentation and application in material science (ion beam implantation); characterization and preparation of nano-structures for microelectronics, optics, optoelectronics, sensors, catalysis and medicine prepared in polymers, graphene allotropes, glasses and crystalline materials; study of growth, modification and structure of thin layers or multilayers used in microelectronics, optics, optoelectronics and medicine; using of RBS-channelling to study crystalline materials and host atom positions; study of surface roughness influence on spectra of back-scattered ions during the ion beam analysis; magnetron sputtering; simulation of energy loss and straggling of energetic ions using SRIM and TRIDYN; image analysis of the TEM results using MATLAB; AFM and image analysis with using GWYDDION; programming (Fortran, C, Matlab, Mathematica, Python).

Academic distinctions and awards:

2008 and 2012 – Rector’s J. E. Purkynje University award for extraordinary results in research activities

Researcher ID: G-9878-2014; Orcid ID: 0000-0002-4236-1192, 133 original publications in reviewed journals and about 782 citations (without self-citation), h index 17 (source WOS 10/2024).

List of 5 most significant publications (IF - Five Year):

  1. P. Malinský et al., Graphene Oxide and Polymer Humidity Micro-Sensors Prepared by Carbon Beam Writing, Polymers 15 (2023) 1066, IF 4.9, Cit 5
  2. P. Malinský et al., Microcapacitors on graphene oxide and synthetic polymers prepared by microbeam lithography, Applied Surface Science 528 (2020) 146802, IF 5.9, Cit 9
  3. P. Malinský et al., Graphene oxide layers modified by irradiation with 1.2 MeV He+ ions, Surface & Coatings Technology 342 (2018) 220–225, IF 4.9, Cit 21
  4. P. Malinský et al., Graphene oxide layers modified by light energetic ions, Physical Chemistry Chemical Physics 19 (2017) 10282—10291, IF 3.0, Cit 45
  5. P. Malinsky et al., Early stages of growth of gold layers sputter deposited on glass and silicon substrates, Nanoscale Research Letters 7 (2012) 241 IF 5.5, Cit 58