2024-03-222024-03-222018-03Akay, S. K. vd. (2018). ''Magnetic responses of divinylbenzene-Fe3O4 composite film deposited by free radical polymerization method''. Journal of Superconductivity and Novel Magnetism, 31(3), Special Issue, 849-854.1557-19391557-1947https://doi.org/10.1007/s10948-017-4249-4https://link.springer.com/article/10.1007/s10948-017-4249-4https://hdl.handle.net/11452/40589Bu çalışma, Temmuz 2017 tarihleri arasında Italy’da düzenlenen Superstripes Conference’da bildiri olarak sunulmuşturThe study reports some novel information on both production and characterization for the poly [DVB/Fe3O4] composite film deposited by free radical polymerization method. The composite film consists of a combination of organic phase and magnetite nanoparticles. The magnetization behavior of the poly [DVB/Fe3O4] composite film was analyzed with both vibrating sample magnetometers (VSM) and a technique of electron spin resonance (ESR). It was found that the ESR study performed at room temperature showed the poly [DVB/Fe3O4] composite film had strong transition of g (eff) similar to 2.5 (254 mT) due to the Fe3+ S-state ions. This g (eff) value indicated that the composite film behavior was near superparamagnetism. The VSM results also supported the ESR results.eninfo:eu-repo/semantics/closedAccessPhysicsFe3O4 nanoparticlesComposite filmElectron spin resonanceMagnetic propertiesIron-oxide nanoparticlesFe3O4 nanoparticlesFunctionalizationAtom transfer radical polymerizationComposite filmsElectron spin resonance spectroscopyElectrospinningEntertainment industryFree radicalsIron oxidesMagnetic momentsMagnetic propertiesMagnetiteMagnetite nanoparticlesNanocomposite filmsNanomagneticsParamagnetic resonanceSpin dynamicsFe3O4 nanoparticlesMagnetic responseMagnetization behaviorNovel informationOrganic phaseS stateVibrating sample magnetometerFree radical polymerizationArticle0004247014000372-s2.0-85047112072849854313, Special IssuePhysics, appliedPhysics, condensed matterMagnetite Nanoparticles; Ferric Oxide; Superparamagnetic Iron Oxide Nanoparticle