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Języki publikacji
Abstrakty
Magnetic properties of 0.7(Fe2O3)/0.3(ZnO) nanocomposite synthesized by traditional wet chemistry method and containing only two phases: ZnO (nonmagnetic) and Zn Fe2O4 (magnetic, with nanocrystallites of average size 12 nm, but forming large agglomerates, up to 100 nm in size) were studied by DC magnetization and ferromagnetic resonance (FMR). The investigated nanocomposite was either in a form of nanopowder or dispersed at concentration of 0.1 wt.% in poly(ethylene naphthalate-block-tetramethylene oxide) PTMO-b-PEN polymer matrix. Similarities and differences in magnetic behavior of these two samples revealed by the study of static magnetization and FMR spectra have been discussed relative to different morphologies and the associated variation of interparticle interactions. Moreover, thermal and thermo-oxidative stability of the nanocomposite and the neat polymer have been studied by thermogravimetric method.
Wydawca
Czasopismo
Rocznik
Tom
Strony
286--296
Opis fizyczny
Bibliogr. 25 poz., rys.
Twórcy
autor
- Institute of Physics, West Pomeranian University of Technology, al. Piastow 48, 70-311 Szczecin, Poland
autor
- Institute of Physics, West Pomeranian University of Technology, al. Piastow 48, 70-311 Szczecin, Poland
autor
- Institute of Physics, West Pomeranian University of Technology, al. Piastow 48, 70-311 Szczecin, Poland
autor
- Institute of Physics, West Pomeranian University of Technology, al. Piastow 48, 70-311 Szczecin, Poland
autor
- Solid State Physics, Department of Physics, University of Athens, Panepistimiopolis, 15 784 Zografos, Athens, Greece
autor
- Institute of Chemical and Environment Engineering, West Pomeranian University of Technology, K. Pulaskiego10, 70-322 Szczecin, Poland
autor
- Institute of Material Engineering, West Pomeranian University of Technology, al. Piastów 19, 70-310 Szczecin, Poland
Bibliografia
- [1] Typek J., Wardal K., Zolnierkiewicz G., Guskos N., Narkiewicz U., Magnetic Properties of Fe2O3/ZnO Nanocomposites, in: Bonca J., Kruchinin S. (Eds.), NATO Science for Peace and Security Series C: Environmental Security, Nanotechnology in the Security Systems, Springer, Dordrecht, 2015, p. 93.
- [2] Guskos N., Zolnierkiewicz G., Typek J., Sibera D., Narkiewicz U., Rev. Adv. Mater. Sci., 23(2010), 224.
- [3] Guskos N., Typek J., Zolnierkiewicz G., Wardal K., Sibera D., Narkiewicz U., Rev. Adv. Mater. Sci., 29(2011), 142.
- [4] Kurylisz-Kudelska I., Hadzic B., Sibera D., Romcevic M., Romcevic N., Narkiewicz U., Dobrowolski W., J. Alloy. Compd., 509(2011), 3756.
- [5] Narkiewicz U., Sibera D., Kuryliszynkudelska I., Kilanski L., Dobrowolski W., Romcevic N., Acta Phys. Pol. A, 113 (2008), 1695.
- [6] Kuryliszyn-Kudelska I., Dobrowolski W., Arciszewska M., Romcevic N., Romcevic M., Hadzic B., Sibera D., Narkiewicz U., Lojkowski W., Sci. Sinter., 45(2013), 31.
- [7] Singh D.J., Gupta M., Gupta R., Phys. Rev. B, 63 (2001), 205102.
- [8] Bohra M., Prasad S., Kumar N., Misra D.S., Sahoo S.C., Venkataramani N., Krishnan R., Appl. Phys. Lett., 88(2006), 26206.
- [9] Karmakar D., Mandal S.K., Kadam R.M., Paulose P.L., Rajarajan A.K., Nath T.K., Das A.K., Dasgupta I., Das G.P., Phys. Rev. B, 75 (2007), 144404.
- [10] Blanco-Gutierrez V., Saez-Puche R., Torralvo-Fernandez M., J. Mater. Chem., 22(2012), 2992.
- [11] Koseoglu Y., Yildiz H., Yilgin R., J. Nanosci. Nanotechnol., 12(2012), 2261.
- [12] Wardal K., Typek J., Zolnierkiewicz G., Guskos N., Narkiewicz U., Sibera D., Eur. Phys. J. Appl. Phys., 62(2013), 10402.
- [13] Borchert H., Shevchenko E.V., Robert A., Mekis I., Kornowski A., Grubel G., Weller H., Langmuir, 21 (2005), 1931.
- [14] Knobel M., Nunes W.C., Winnischofer H., Rocha T.C.R., Socolovsky L.M., Mayorga C.L., Zanchet D., J. Non-Cryst. Solids, 353 (2007), 743.
- [15] Tiwari S.D., Rajeev K.P., Solid State Commun., 152(2012), 1080.
- [16] Guskos N., Glenis S., Likodimos V., Typek J., Maryniak M., Roslaniec Z., Kwiatkowska M., Baran M., Szymczak R., Petridis D., J. Appl. Phys., 99(2006), 084307.
- [17] Chantrell R.W., Walmsley N.S., Gore J., Maylin M., Phys. Rev. B, 63 (2000), 024410.
- [18] Typek J., Wardal K., Guskos N., Sibera D., Narkiewicz U., Ieee T. Magn., 50(2014), 6101606.
- [19] Noginova N., Chen F., Weaver T., Giannelis E.P., Bourlinos A.B., Atsarkin V.A., J. Phys., Condens. Matter., 19(2007), 246208.
- [20] Biasi De E., Zysler R.D., Ramos C.A., Romero H., J. Magn. Magn. Mater., 294(2005), e87.
- [21] Biasi De E., Lima Jr. E., Ramos C.A., Butera A., Zysler R.D., J. Magn. Magn. Mater., 326(2013),138.
- [22] Zins D., Nakatsuka K., Gendron F., Rivoire M., J. Magn. Magn. Mater., 201(1999), 84.
- [23] Vargas J.M., Lima Jr. E., Zysler R.D., Duque J.G.S., De Biasi E., Knobel M., Eur. Phys. J. B, 64 (2008), 211.
- [24] Szymczyk A., Roslaniec Z., Polimery-W., 51(2006), 627.
- [25] Szymczyk A., J. Appl. Polym. Sci., 126(2012), 796.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ca6a25ca-80d8-4a6b-9585-af0cc5c83b94