Email: piotr.bardzinski@pwr.edu.pl
Unit: Faculty of Fundamental Problems of Technology » Department of Semiconductor Materials Engineering
ul. Na Grobli 15, 50-421 Wrocław
building L-1 (Geocentrum), room 392
phone +48 71 320 6856
Office hours
- Monday 9.00-11.00
- Tuesday 9.00-11.00
Research fields
- The subject of my research interests can be briefly defined as obtaining materials with desired properties by controlled structure alteration as well as experimental and theoretical investigation of structural, magnetic, electric and mechanical properties of materials. The latter include: rapidly solidified metal alloys (including metallic glass, quasicrystals, nano- and microcrystalline alloys), nanocomposites, surface-functionalized materials, thin films, sol-gel and graphene. The scope of my research activity also includes the simulations of ore flow distribution in the mine’s transport system, ab initio calculations of intermolecular interactions as well as paleontology and mineralogy.
Recent papers
2016
- Bardziński P.J., Błyskun P., Mechanical properties and structure of rapidly solidified bulk Fe89-xHf4Ta1Cu1Gd1SixB4 (x = 0-15) and Fe74Hf4Ta1Cu1Gd1LaySi15-yB4 (y=7) alloys, Materials & Design (Elsevier), vol. 103 (2016), s. 377-390. Impact Factor: 4.36.
2015
- Bardziński P. J., Kopcewicz M., Rybaczuk M., Hasiak M., Musiał A. , Kinzhybalo V., Idzikowski B., Magnetic properties and structure of amorphous Fe74Hf4Ta1Cu1Gd1LaxSi15-xB4 (x = 0,7) ribbons, Acta Physica Polonica A. 2015, vol. 127, nr 3, s. 827-830. Impact Factor: 0.53.
- Bardziński P. J., Ab initio investigation of intermolacular interactions in tryptophane (indole) - graphene complex. [W]: 13th Students' Science Conference [Dokument elektroniczny]: Polanica-Zdrój, 17-20 September 2015. Wrocław: Oficyna Wydawnicza Politechniki Wrocławskiej, 2015. s. 261-265.
2014
- Bardziński P.J., On the impact of intermolecular interactions between the quaternary ammonium ions on interlayer spacing of quat-intercalated montmorillonite: A molecular mechanics and ab-initio study, Applied Clay Science (Elsevier), vol. 95 (2014), s. 323-339. Impact Factor: 3.10.
2013
- Bardziński P.J., Błachut A.A., Iron-based amorphous alloys exhibiting a magnetocaloric effect, [W]: 11th Students' Science Conference Man - Civilization - Future: Będlewo, 3-6 October 2013. Wrocław: Oficyna Wydawnicza Politechniki Wrocławskiej, 2013. Prace Studentów Politechniki Wrocławskiej. Konferencje, ISSN 1732-0240; nr 18, s. 151-155 (2013).
2011
- Bardziński P.J., Determination of the electronic band structure of the rutile polymorph of TiO2: a quantum chemical approach, Materials Science-Poland. 2011, vol. 29, nr 3, s. 223-232. Impact Factor: 0.37.
Papers in DONA database