A. Kryshtal
AGH University of Science and Technology
19 Papers
95 Citations
A. Kryshtal is an academic researcher from AGH University of Science and Technology. The author has contributed to research in topics: Eutectic system & Crystallization. The author has an hindex of 7, co-authored 19 publications. Previous affiliations of A. Kryshtal include University of Kharkiv.
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Papers
Enhanced Piezoelectricity of Electrospun Polyvinylidene Fluoride Fibers for Energy Harvesting.
Piotr K. Szewczyk,Arkadiusz Gradys,Sung Kyun Kim,Luana Persano,Mateusz M. Marzec,A. Kryshtal,Tommaso Busolo,Alessandra Toncelli,Alessandra Toncelli,Dario Pisignano,Dario Pisignano,Andrzej Bernasik,Sohini Kar-Narayan,Paweł Sajkiewicz,Urszula Stachewicz +14 more
TL;DR: This study showed that the electrospinning technique can be used as a single-step process for obtaining a vast spectrum of PVDF fibers exhibiting different physicochemical properties with β-phase crystallinity reaching up to 74%.
194
Melting point lowering of thin metal films (Me = In, Sn, Bi, Pb) in Al/Me/Al film system
TL;DR: In this paper, the variation of the melting point of thin films (10-40nm) of In, Sn, Bi and Pb between thick (100-nm) Al films was investigated using elegant differential technique.
38
Critical thickness of contact melting in the Au/Ge layered film system
TL;DR: In this paper, the melting behavior of Au/Ge bilayer thin films using transmission electron microscopy and high energy electron diffraction was investigated and it was found that the liquid phase formation in the system at eutectic temperature takes place only if the gold film mass thickness values are greater than the critical one (0.2 ).
24
Miscibility gap narrowing on the phase diagram of AuNi nanoparticles
TL;DR: In this article, the mutual solid-state solubility in Au Ni nanoparticles with a mean size of ≈6 nm was investigated via electron microdiffraction, EDX, and high-resolution STEM during sample heating in an electron microscope.
19
Mixing of Immiscible Components by the Size Effect: A Case Study of Au–Ni Nanostructures
TL;DR: In this article, the interphase interactions in modern catalysts widely utilize multicomponent nanosized materials and structures, and many aspects of interphase interaction in such systems are still unresolved in many aspects.
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