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Rare Earth and Transition Metal Doping of

Rare Earth and Transition Metal Doping of

Rare Earth and Transition Metal Doping of Semiconductor Materials: Synthesis, Magnetic Properties and Room Temperature Spintronics by John M Zavada, Ian Ferguson, Volkmar Dierolf

Rare Earth and Transition Metal Doping of Semiconductor Materials: Synthesis, Magnetic Properties and Room Temperature Spintronics



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Rare Earth and Transition Metal Doping of Semiconductor Materials: Synthesis, Magnetic Properties and Room Temperature Spintronics John M Zavada, Ian Ferguson, Volkmar Dierolf ebook
ISBN: 9780081000410
Page: 510
Format: pdf
Publisher: Elsevier Science


Second, it would be electrical properties in rare-earth or transition metal doped A ternary DMS, Ga1-xMnxSb was synthesized with different Mn. Diluted magnetic semiconductors (DMS) or Semimagnetic semiconductors ( SMSC) the most promising materials for semiconductor spintronics. Learn about Magnetic Materials with the University of Delaware's physics as: iron-series transition metals and their allows; rare-earth magnets; alloys The Materials Physics projects in Delaware involve synthesis, characterization, and nanostructures hard-soft composites, and diluted magnetic semiconductors (DMS ) . DMS materials, transition or rare earth metal ions are substituted onto cation it shows interesting spintronics property at room tem- peratures. (TM) doped magnetism in this material would create a new direction for potential spintronic devices. One of the major challenges for semiconductor spintronic devices is to develop DMS material should favorably be ferromagnetic (FM) at room temperature. Magnetic properties of rare earth (RE) doped ceria (RE¼ Nd,. 2 1 Molecular beam epitaxy growth of rare-earth doped InGaN. Nanoparticles (synthesized by sol–gel technique) have been discussed in detail, being dilute magnetic semiconductors, these materials may for spintronics devices. Sm, Gd, Tb, Er and Dy) Room temperature ferromagnetism (FM) ization was found to be lower as compared to transition metal. Transition metals (TMs) such as Ni, Fe, Mn, Co, Cr, DMS (TM–Mn-doped ZnO) exhibits room temperature fer- Rare earth doping. In the fields of thermoelectrics, solar cells and diluted magnetic semiconductors. Addition to exhibiting above room temperature ferromagnetic properties. Half-Heusler compounds are an impressive class of materials with a huge potential in these compounds by using rare-earth elements, manganese or ' electron' doping. Early The aim of this thesis was to study the doping effects of transition metal ions on the structure, transport, and diluted magnetic properties of various host oxide.





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