Search Results - "Orendáč, M."

Vacancy-driven magnetism of GdMnO3+δ multiferroic compound by Mihalik, M., Pacanowska, A., Orendáč, M., Csach, K., Fitta, M., Mihalik, M.

“…The impact of the preparation atmosphere (air, Ar, or O2) on the magnetic properties of the multiferroic GdMnO3+δ compound is presented. It was found that the…”
Get full text

Magnetocaloric properties of Gd2MoO6 prepared by a simple and fast method by Tkáč, V., Tothová, E., Tibenská, K., Orendáčová, A., Orendáč, M., Tarasenko, R.

“…The experimental study of the specific heat, magnetic susceptibility, and magnetization of Gd2MoO6 powder sample was performed in the temperature range between…”
Get full text

Spin relaxation in 3Zn(PO3)2·2Mn(PO3)2 phosphate glass – The role of low-energy vibrational modes by Tkáč, V., Tarasenko, R., Čižmár, E., Orendáčová, A., Tibenská, K., Holubová, J., Černošková, E., Černošek, Z., Orendáč, M.

“…Thermodynamic and magnetic properties of 3Zn(PO3)2·2Mn(PO3)2 phosphate glass at wide temperature and magnetic field range were investigated. The study of…”
Get full text

Experimental Study of Magneto-Structural Correlations in Low-Dimensional Quantum Magnets Cu(en)Cl 2 and Cu(tn)Cl 2 by Tarasenko, R., Lederová, L., Orendáčová, A., Orendáč, M., Feher, A.

Get full text

Experimental study of magnetic anisotropy in a layered CsNd(MoO4)2 by Tkáč, V., Orendáčová, A., Čižmár, E., Orendáč, M., Zvyagin, S., Anders, A.G., Pavlík, V., Feher, A.

“…•Nd3+ ion properties in a concentrated CsNd(MoO4)2 orthorhombic lattice were studied.•Magnetization at 5K reflects tetragonal crystal field and weak magnetic…”
Get full text

Study of Niobium Thin Films under Pressure by Pristáš, G., Gabáni, S., Orendáč, M., Komanický, V., Gažo, E.

Get full text

Spin Glass State in S=3/2 Kagomé Antiferromagnet Co(N_{3})_{2}(bpg)[(CH_{3})_{2}(NCOH)]_{4/3} by Vrábel, P., Čižmár, E., Orendáčová, A., Gao, S., Orendáč, M.

Get full text

Experimental Study of the Magnetocaloric Effect in the Two-Dimensional Quantum System Cu(tn)Cl_2 by Baranová, L., Tarasenko, R., Orendáčová, A., Orendáč, M., Pavlík, V., Feher, A.

Get full text

Cu–Ni heterobimetallic compounds. Part 2: Study of the system Cu(II)– bpy–[Ni(CN) 4] 2− ( bpy = 2,2′-bipyridine) by Kočanová, I., Kuchár, J., Orendáč, M., Černák, J.

“…From aqueous-ethanolic systems Cu 2+– bpy–[Ni(CN) 4] 2− two novel Cu–Ni heterobimetallic complexes [Ni( bpy) 3][Cu(CN) 3]·4.5H 2O ( 1) and [Cu( bpy) 2(CN)]…”
Get full text

Magnetic properties, magnetoresistive, and magnetocaloric effects of AlCrFeCoNiCu thin-film high-entropy alloys prepared by the co-evaporation technique by Vorobiov, S., Pylypenko, O., Bereznyak, Yu, Pazukha, I., Čižmár, E., Orendáč, M., Komanicky, V.

“…The present work shows the comprehensive investigations of phase state, magnetic properties, magnetoresistive, and magnetocaloric effects of AlCrFeCoNiCu…”
Get full text

The influence of the magnetic subsystem on the heat transport in CsMnCl3 · 2H2O by Tkáč, V., Tibenská, K., Orendáčová, A., Orendáč, M., Šebek, J., Sechovský, V., Anders, A. G., Pavlík, V., Feher, A.

“…The thermal conductivity of CsMnCl3 · 2H2O (CMC) – a quasi‐one‐dimensional antiferromagnet with spin 5/2 has been studied in the temperature range from 2 to 25…”
Get full text

Thermodynamic properties of the phosphate glass Dy(PO3)3 – Potential influence of boson peak on spin relaxation by Baloh, P., Tkáč, V., Tarasenko, R., Čižmár, E., Orendáč, M., Orendáčová, A., Onufriienko, O., Holubová, J., Černošková, E., Černošek, Z., Feher, A.

“…•The reduced specific heat of Y(PO3)3 glass reveals a Boson peak (BP) at T = 12 K.•The Schottky maximum in the heat capacity of Dy(PO3)3 is located below…”
Get full text

Optimization of the magnetocaloric effect in arrays of Ni3Pt nanomagnets by Vorobiov, S., Tomasova, D., Girman, V., You, H., Čižmár, E., Orendáč, M., Komanicky, V.

“…•The square arrays of Ni3Pt nanomagnets were fabricated using EBL.•Magnitude and operating temperature of MCE can be tuned by array period.•Increase of…”
Get full text

Relaxation phenomena and magnetocaloric effect in the dynamic spin ice Pr2Sn2O7 by Tkáč, V., Tarasenko, R., Tóthová, E., Bujňáková, Z., Tibenská, K., Orendáčová, A., Sechovský, V., Orendáč, M.

“…Spin relaxation and a magnetocaloric effect in a dipolar spin ice Pr2Sn2O7 were investigated by magnetization and alternating susceptibility measurements in…”
Get full text

Experimental Study of Magnetic Properties of Alumina Ceramics by Tarasenko, R., Orendáčová, A., Orendáč, M., Kajňaková, M., Feher, A.

Get full text

Preparation, crystal structure and magnetic properties of Cu(en) 2Pd(CN) 4 by Černák, J., Skoršepa, J., Abboud, K.A., Meisel, M.W., Orendáč, M., Orendáčová, A., Feher, A.

“…The compound Cu(en) 2Pd(CN) 4 was prepared and characterized. Its crystal structure is constructed of chains running along the body diagonal to the unit cell…”
Get full text

Fingerprints of super spin-glass state in two-dimensional nanoscopic system by Orendáč, M., Lupínková, S., Doroshenko, A., Čižmár, E., Orendáčová, A., Švorčík, V., Lyutakov, O., Fajstavr, D., Kolská, Z., Zeleňáková, A.

“…Novel two-dimensional magnetic assembly was designed, manufactured, and its static and dynamic magnetic response was investigated. The assembly contains Fe3O4…”
Get full text

Copper nanoparticles functionalized PE: Preparation, characterization and magnetic properties by Reznickova, A., Orendac, M., Kolska, Z., Cizmar, E., Dendisova, M., Svorcik, V.

“…[Display omitted] •Polyethylene (PE) surface was activated by argon plasma discharge.•Copper nanoparticles were coated on polyethylene via dithiol…”
Get full text

Vacancy-driven magnetism of GdMnO 3 + δ multiferroic compound by Mihalik, M., Pacanowska, A., Orendáč, M., Csach, K., Fitta, M., Mihalik, M.

Get full text

Immobilization of Fe@Au superparamagnetic nanoparticles on polyethylene by Kvitek, O., Reznickova, A., Zelenakova, A., Zelenak, V., Orendac, M., Svorcik, V.

“…[Display omitted] •Core-shell Fe@Au nanoparticles were immobilized on plasma treated polyethylene.•Biphenyldithiol was used as an interlinking molecule to bind…”
Get full text