Synthesis of calcium doped lanthanum manganite by mechanosynthesis
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Lanthanum manganite doped with calcium, Ca1/3La2/3MnO3-δ, was prepared by a high-energy ball milling. The precursors used were Mn2O3, La2O3 and CaO, mixed in the stoichiometric ratio to obtain this manganite. The mechano-chemical process was performed at room temperature in a SPEX 8000D mixer/mill, using hardened steel balls and stainless steel vials, in air atmosphere. X-ray diffraction was used to elucidate the phase transformation as a function of the milling time. The Rietveld refinement was used in order to characterize structurally the manganites. The morphology and particle size of powder compound obtained were characterized by scanning electron microscope. The particle size of this powder material was measured with zeta size analyzer, and selected area electron diffraction (SAED) from TEM was used to elucidate the crystalline structure of this powder compound. The results showed that it is possible to obtain calcium doped lanthanum manganite by mechano-synthesis, using a weight ratio of ball to powder of 12:1, after 3 h of milling. The evolution of the phase transformation during the milling time is reported. Increases in milling time produce exponential decrease in the particle size, up to 680 nm after 1 h of milling. After the milling process it is obtained a powder compound with an orthorhombic structure (S.G. Pbnm). A prolonged milling time (>9 h) produce an important reduction in the particle size but this is accompanied with a high iron contamination caused by metallic residues originated from vial and balls and also, after 9 h of milling time, it was found an important distortion in orthorhombic structure, obtaining two types of parameters. © 2006 Elsevier B.V. All rights reserved.
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Calcium lanthanum manganite; Ceramics; Crystal structure; Fuel cells; Manganites; Mechanochemical processing; X-ray diffraction Ball milling; Crystal structure; Doping (additives); Fuel cells; Manganites; Synthesis (chemical); X ray diffraction; Calcium lanthanum manganite; Mechanochemical processing; Powder compound; Selected area electron diffraction (SAED); Stoichiometric ratio; Lanthanum compounds
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