J. Przewoźnik scite author profile

a b s t r a c tSuperconducting FeSe has been investigated by measurements of the magnetic susceptibility versus temperature and Mössbauer spectroscopy at various temperatures including strong external magnetic fields applied to the absorber. It was found that isomer shift exhibits sharply defined increase at about 105 K leading to the lowering of the electron density on iron nucleus by 0.02 electron a.u. −3 . Above jump in the electron density is correlated with the transition from the P4/nmm to the Cmma structure, while decreasing temperature. Mössbauer measurements in the external magnetic field and for temperatures below transition to the superconducting state revealed null magnetic moment on iron atoms. Hence, the compound exhibits either Pauli paramagnetism or diamagnetic behavior. The principal component of the electric field gradient on the iron nucleus was found as negative on the iron site.

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Hydrogen induced phase transitions in YMn2

Figiel

Przewoźnik

Paul‐Boncour

et al. 1998

Journal of Alloys and Compounds

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Magnetoresistance in FeCoZr–Al₂O₃ nanocomposite films containing ‘metal core–oxide shell’ nanogranules

Fedotova¹,

Przewoźnik²,

Kapusta³

et al. 2011

J. Phys. D: Appl. Phys.

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Temperature and magnetic field dependences of electrical conductivity are systematically studied in granular films (Fe45Co45Zr10) x (Al2O3)100−x (28 ⩽ x ⩽ 64) containing crystalline metallic α-FeCo-based nanoalloy cores encapsulated in an amorphous oxide shell embedded in an amorphous Al2O3 matrix. Formation of ‘metallic core–oxide shell’ nanogranules is confirmed by transmission electron microscopy (TEM) and HRTEM. The structure of core and shell is governed with the difference in the oxidation states of Fe and Co ions investigated with EXAFS, XANES and Mössbauer spectroscopy. A considerable negative magnetoresistance (MR) effect of spin-dependent nature is observed in the whole range of x values. Its increase with decreasing temperature is correlated with the magnetic saturation of superparamagnetic metallic nanogranules. The enhanced MR effect in ‘core–shell’ granular films is related to the percolation of oxide shells and their influence through spin filtering processes. A considerable high field MR at low temperatures and the resulting deviation of MR and squared magnetization are attributed to a magnetic randomness and/or strong magnetic anisotropy of the magnetic oxide shell.

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Electrochemical synthesis of magnetic iron oxide nanoparticles with controlled size

et al. 2011

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We present a novel and facile method enabling synthesis of iron oxide nanoparticles, which are composed mainly of maghemite according to X-ray diffraction (XRD) and Mössbauer spectroscopy studies. The proposed process is realized by anodic iron polarization in deaerated LiCl solutions containing both water and ethanol. Water seems to play an important role in the synthesis. Morphology of the product was studied by means of transmission electron microscopy and XRD. In the solution containing almost 100% of water a black suspension of round shaped maghemite nanoparticles of 20–40 nm size is obtained. Regulating water concentration allows to control nanoparticle size, which is reduced to 4–6 nm for 5% of water with a possibility to reach intermediate sizes. For 3% or lower water concentration nanoparticles are of a needle-like shape and form a reddish suspension. In this case phase determination is problematic due to a small particle size with the thickness of roughly 3 nm. However, XRD studies indicate the presence of ferrihydrite. Coercivities of the materials are similar to those reported for nanoparticle magnetite powders, whereas the saturation magnetization values are considerably smaller.

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J. Przewoźnik

Antiferromagnetic spin glass-like behavior in sintered multiferroic Aurivillius Bim+1Ti3Fem−3O3m+3 compounds

Mössbauer spectroscopy evidence for the lack of iron magnetic moment in superconducting FeSe

Hydrogen induced phase transitions in YMn2

Magnetoresistance in FeCoZr–Al₂O₃ nanocomposite films containing ‘metal core–oxide shell’ nanogranules

Electrochemical synthesis of magnetic iron oxide nanoparticles with controlled size

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J. Przewoźnik

Antiferromagnetic spin glass-like behavior in sintered multiferroic Aurivillius Bim+1Ti3Fem−3O3m+3 compounds

Mössbauer spectroscopy evidence for the lack of iron magnetic moment in superconducting FeSe

Hydrogen induced phase transitions in YMn2

Magnetoresistance in FeCoZr–Al2O3 nanocomposite films containing ‘metal core–oxide shell’ nanogranules

Electrochemical synthesis of magnetic iron oxide nanoparticles with controlled size

Contact Info

Product

Resources

About

Magnetoresistance in FeCoZr–Al₂O₃ nanocomposite films containing ‘metal core–oxide shell’ nanogranules