Kinetics and Thermodynamics of the Degree of Order of the B Cations in Double-Perovskite Sr2FeMoO6

Shimada, Takeshi; Nakamura, Jin; Motohashi, Teruki; Yamauchi, and H.; Karppinen, Maarit

doi:10.1021/cm030409y

Cited by 70 publications

(74 citation statements)

References 20 publications

(54 reference statements)

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“…As reported in our previous works, sintering at 1150°C facilitates a low w value due to thermal equilibrium. 15,17 For a sample sintered at 1150°C, w is about 0.05 for t s = 4 h, 0.03 for 24 h, and as low as 0.02 for 100 h. Resistivity at zero field as a function of temperature for the SFMO samples is presented in Fig. 3.…”

Section: Resultsmentioning

confidence: 99%

“…[12][13][14] A certain density of DODs remains unavoidably on the octahedral B-cation sublattice in SFMO after a finite sintering period owing to the slow kinetics of the ordering process. 15 In SFMO, a long-range magnetic interaction between the spins of Fe 3+ ͑S =5/2͒ and Mo 5+ ͑S =1/2͒ induces the ferromagnetic half-metallic state with a theoretical saturation magnetization ͑M s ͒ of 4 B per formula unit. With the existence of DODs, the M s value should be lowered due to the antiferromagnetic interaction between the adjacent Fe ions.…”

Section: Introductionmentioning

confidence: 99%

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Competition between intragranular and intergranular tunneling magnetoresistance in polycrystallineSr2FeMoO6

2006

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Polycrystalline Sr 2 FeMoO 6 ͑SFMO͒ samples with various grain sizes and densities of Fe/ Mo disorder defects were synthesized from sol-gel-derived precursors by means of a sample-encapsulation technique. The samples with perfect Fe/ Mo ordering exhibited metallic transport behavior and a large magnetoresistance ͑MR͒ effect, whereas the samples with a high-disorder density and small grain size showed a metal-insulator transition and lower MR values. It is suggested that a competition between intragranular and intergranular tunneling MR effects exists in the SFMO system. To confirm this competition, homocomposite samples consisting of two or three single-phase SFMO components with different grain sizes were designed. Large enhancement in low-field magnetoresistance ͑LFMR͒ was observed in the homocomposites, which could be attributed to the enhanced intergranular effect. It is thus concluded that the intergranular effect is more important to the LFMR than the intragranular effect.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Competition between intragranular and intergranular tunneling magnetoresistance in polycrystallineSr2FeMoO6

2006

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“…Specific synthesis routes with controlled heating and cooling rates which control the kinetics of the reaction are essential to obtain samples with high degree of cationic order. 12,33 The polycrystalline samples used in the present study were prepared by fast rates of firing and cooling at elevated temperatures and hence resulted in higher content of disorder.…”

Section: Neutron Diffraction: Presence Of Antisite Disordermentioning

confidence: 99%

Magnetization-steps in Y2CoMnO6 double perovskite: The role of antisite disorder

Nair

Pradheesh

Xiao

et al. 2014

Journal of Applied Physics

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Articles you may be interested inEnhanced magnetism and ferroelectricity in epitaxial Pb(Zr0.52Ti0.48)O3/CoFe2O4/La0.7Sr0.3MnO3 multiferroic heterostructures grown using dual-laser ablation technique J. Appl. Phys. 115, 17D707 (2014) Antisite disorder is observed to have significant impact on the magnetic properties of the double perovskite Y 2 CoMnO 6 which has been recently identified as a multiferroic. A paramagneticferromagnetic phase transition occurs in this material at T c % 75 K. At 2 K, it displays a strong ferromagnetic hysteresis with a significant coercive field of H c % 15 kOe. Sharp steps are observed in the hysteresis curves recorded below 8 K. In the temperature range 2 K T 5 K, the hysteresis loops are anomalous as the virgin curve lies outside the main loop. The field-cooling conditions as well as the rate of field-sweep are found to influence the steps. Quantitative analysis of the neutron diffraction data shows that at room temperature, Y 2 CoMnO 6 consists of 62% of monoclinic P2 1 /n with nearly 70% antisite disorder and 38% Pnma. The bond valence sums indicate the presence of other valence states for Co and Mn which arise from disorder. We explain the origin of steps by using a model for pinning of magnetization at the antiphase boundaries created by antisite disorder. The steps in magnetization closely resemble the martensitic transformations found in intermetallics and display first-order characteristics as revealed in the Arrott's plots. V C 2014 AIP Publishing LLC.

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“…[1] It therefore has promise for applications in spintronics and magnetic sensors. There have been numerous reports of optimization of processing conditions to yield high levels of cation ordering [2,3] and crystalline perfection, which are required to yield the theoretical saturation magnetization value of 4l B per formula unit (where l B is the Bohr magneton).…”

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confidence: 99%

Reversible Low‐Field Magnetoresistance in Sr₂Fe_2–_xMo_xO_6–δ by Oxygen Cycling and the Role of Excess Mo (x > 1) in Grain‐Boundary Regions

et al. 2006

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Oxygen cycling of Sr2Fe2–xMoxO6–δ (SFMO) samples allows the resistivity and low‐field magnetoresistance (LFMR) to be precisely cycled. TEM shows that the change in resistivity with oxygen is not only a consequence of the change in oxygen stoichiometry of SFMO, but also a concomitant change in the Fe/Mo ratio in SFMO. The figure shows the change in MR and resistivity (values in mΩ cm above the data points for samples D1–D7) with increasing post‐annealing time.

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Kinetics and Thermodynamics of the Degree of Order of the B Cations in Double-Perovskite Sr₂FeMoO₆

Cited by 70 publications

References 20 publications

Competition between intragranular and intergranular tunneling magnetoresistance in polycrystallineSr2FeMoO6

Competition between intragranular and intergranular tunneling magnetoresistance in polycrystallineSr2FeMoO6

Magnetization-steps in Y2CoMnO6 double perovskite: The role of antisite disorder

Reversible Low‐Field Magnetoresistance in Sr₂Fe_2–_xMo_xO_6–δ by Oxygen Cycling and the Role of Excess Mo (x > 1) in Grain‐Boundary Regions

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Kinetics and Thermodynamics of the Degree of Order of the B Cations in Double-Perovskite Sr2FeMoO6

Cited by 70 publications

References 20 publications

Competition between intragranular and intergranular tunneling magnetoresistance in polycrystallineSr2FeMoO6

Competition between intragranular and intergranular tunneling magnetoresistance in polycrystallineSr2FeMoO6

Magnetization-steps in Y2CoMnO6 double perovskite: The role of antisite disorder

Reversible Low‐Field Magnetoresistance in Sr2Fe2–xMoxO6–δ by Oxygen Cycling and the Role of Excess Mo (x > 1) in Grain‐Boundary Regions

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Kinetics and Thermodynamics of the Degree of Order of the B Cations in Double-Perovskite Sr₂FeMoO₆

Reversible Low‐Field Magnetoresistance in Sr₂Fe_2–_xMo_xO_6–δ by Oxygen Cycling and the Role of Excess Mo (x > 1) in Grain‐Boundary Regions