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Israel Felner
Researcher at The Racah Institute of Physics
Publications - 525
Citations - 11335
Israel Felner is an academic researcher from The Racah Institute of Physics. The author has contributed to research in topics: Magnetization & Superconductivity. The author has an hindex of 52, co-authored 517 publications receiving 10819 citations. Previous affiliations of Israel Felner include Hebrew University of Jerusalem & University of Paris-Sud.
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Coexistence of magnetism and superconductivity in R 1.4 Ce 0.6 RuSr 2 Cu 2 O 10-δ (R=Eu and Gd)
TL;DR: The superconducting materials are magnetically ordered at the Ru sublattice and magnetic susceptibility and Mossbauer spectroscopy measurements reveal that the materials are of single phase which simultaneously manifest both superconductivity and magnetism as mentioned in this paper.
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Synthesis and characterization of zinc/iron oxide composite nanoparticles and their antibacterial properties
TL;DR: In this paper, zinc oxide was combined with iron oxide to produce magnetic composite nanoparticles with improved colloidal aqueous stability, together with adequate antibacterial activity, which were synthesized by basic hydrolysis of Feµµ and Znµ ions in aquequeous continuous phase containing gelatin.
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Sonochemical synthesis and characterization of pure nanometer-sized Fe3O4 particles
TL;DR: In this paper, a sonochemical synthesis of pure nanometer-size Fe3O4 powder with particle size of ca 10 nm is reported, which can be simply synthesized by sonication of iron(II)acetate in water under an argon atmosphere.
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Sonochemical Preparation of Nanosized Amorphous NiFe2O4 Particles
Kurikka V. P. M. Shafi,Yu. Koltypin,Aharon Gedanken,Ruslan Prozorov,Judit Balogh,János Lendvai,Israel Felner +6 more
TL;DR: A sonochemical decomposition of solutions of volatile organic precursors, Fe(CO)5 and Ni(CO4), in decalin at 273 K, under an oxygen pressure of 100−150 kPa was reported in this article.
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First-order valence phase transition in cubic Yb x In 1 − x Cu 2
Israel Felner,Israel Nowik +1 more
TL;DR: The present compounds exhibit the sharpest temperature-dependent valence phase transition in any metallic system.