K. Tomala
Jagiellonian University
34 Papers
489 Citations
K. Tomala is an academic researcher from Jagiellonian University. The author has contributed to research in topics: Magnetization & Hyperfine structure. The author has an hindex of 13, co-authored 34 publications. Previous affiliations of K. Tomala include French Alternative Energies and Atomic Energy Commission.
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Papers
Tuning of Magnetic Properties of Polynuclear Lanthanide(III)−Octacyanotungstate(V) Systems: Determination of Ligand-Field Parameters and Exchange Interaction
Paweł Przychodzeń,R. Pelka,Krzysztof Lewiński,Justyna Supel,Michał Rams,K. Tomala,Barbara Sieklucka +6 more
TL;DR: Taking into account the ligand-field splitting and the exchange interaction, the magnetic couplings between the Ln(III) and WV centers in a series of polycrystalline 1-D chains and in dimeric systems are estimated.
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Hyperfine interactions in intermetallic compounds between Gd and 3d transition metals
TL;DR: In this article, measurements of hyperfine interactions at 155 Gd nuclei in metallic compounds between Gd and 3 d transition metals and at 61 Ni in GdNi compounds by Mossbauer spectroscopy are reported.
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[Ln(terpy)]3+ (Ln = Sm, Gd) entity forms isolated magnetic chains with [W(CN)8]3−
TL;DR: The magnetic measurements suggest that the 1-D chains of Ln(III)W(V) and Cs3 display an isolated magnetic chain behaviour.
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Slow magnetic relaxations in the anisotropic Heisenberg chain compound Mn(III) tetra( ortho -fluorophenyl)porphyrin-tetracyanoethylene
Maria Bałanda,Michał Rams,Sandip K. Nayak,Zbigniew Tomkowicz,Wolfgang Haase,K. Tomala,J. V. Yakhmi +6 more
TL;DR: In this article, the magnetic properties of manganese(III) tetra(ortho-fluorophenyl)porphyrin-tetracyanoethylene were studied by ac and dc measurements on polycrystalline samples.
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An unprecedented copper(I,II)–octacyanotungstate(V) 2-D network: crystal structure and magnetism of [CuII(tren)]{CuI[WV(CN)8]}·1.5H2O
Tomasz Korzeniak,Katarzyna Stadnicka,Robert Pełka,Maria Bałanda,K. Tomala,Kazimierz Kowalski,Barbara Sieklucka +6 more
TL;DR: A novel two-dimensional cyanide-bridged polymer formed via the simultaneous in situ metal-ligand redox reaction of [Cu(tren)(OH2)]2+ and self-assembly with [W(V)(CN)8]3- exhibits ferromagnetic coupling.
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