Microwave-Assisted Synthesis, Microstructure, and Magnetic Properties of Rare-Earth Cobaltites

Seijas, Julia Gutiérrez; Prado‐Gonjal, Jesús; Brande, David Ávila; Terry, Ian; Morán, E.; Schmidt, Rainer

doi:10.1021/acs.inorgchem.6b02557

Cited by 16 publications

(4 citation statements)

References 47 publications

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“…The temperature dependence of the magnetic susceptibility of RCoO 3 is determined by the magnetization of rare-earth ions and the additional paramagnetic contribution induced by the thermally excited magnetic terms of Co 3+ ions. The obtained experimental data are in good agreement with similar studies in recently published works [44,45].…”

Section: Magnetic Propertiessupporting

confidence: 92%

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Effect of Multiplicity Fluctuation in Cobalt Ions on Crystal Structure, Magnetic and Electrical Properties of NdCoO3 and SmCoO3

et al. 2020

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The structural, magnetic, electrical, and dilatation properties of the rare-earth NdCoO3 and SmCoO3 cobaltites were investigated. Their comparative analysis was carried out and the effect of multiplicity fluctuations on physical properties of the studied cobaltites was considered. Correlations between the spin state change of cobalt ions and the temperature dependence anomalies of the lattice parameters, magnetic susceptibility, volume thermal expansion coefficient, and electrical resistance have been revealed. A comparison of the results with well-studied GdCoO3 allows one to single out both the general tendencies inherent in all rare-earth cobaltites taking into account the lanthanide contraction and peculiar properties of the samples containing Nd and Sm.

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Section: Magnetic Propertiessupporting

confidence: 92%

“…of Co 3+ ions. The obtained experimental data are in good agreement with similar studies in recently published works [44,45].…”

Section: Magnetic Propertiessupporting

confidence: 92%

Effect of Multiplicity Fluctuation in Cobalt Ions on Crystal Structure, Magnetic and Electrical Properties of NdCoO3 and SmCoO3

et al. 2020

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“…Microwave (MW) irradiation is recognized as one of the most popular and versatile strategies for fabricating materials in nearly all systems, − owing to the following unique advantages: , (i) homogeneous heating, (ii) high heating rate, (iii) selective activation of the target precursor, (iv) high reproducibility, (v) convenient and near-continuous process, and (vi) rapid production and high throughput. To the best of our knowledge, until most recently, just a few works have shed light on the synthesis of CsPbX 3 perovskites , based on the MW technique.…”

Section: Introductionmentioning

confidence: 99%

General Strategy for Rapid Production of Low-Dimensional All-Inorganic CsPbBr₃ Perovskite Nanocrystals with Controlled Dimensionalities and Sizes

et al. 2018

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Currently, all-inorganic CsPbX (X = Br, I, Cl) perovskite nanocrystals (NCs) are shining stars with exciting potential applications in optoelectronic devices such as solar cells, light-emitting diodes, lasers, and photodetectors, due to their superior performance in comparison to their organic-inorganic hybrid counterparts. In the present work, we report a general strategy based on a microwave technique for the rapid production of low-dimensional all-inorganic CsPbBr perovskite NCs with tunable morphologies within minutes. The effect of the key parameters such as the introduced ligands, solvents, and PbBr precursors and microwave powers as well as the irradiation times on the production of perovskite NCs was systematically investigated, which allowed their growth with tunable dimensionalities and sizes. As a proof of concept, the ratio of OA to OAm as well as the concentration of PbBr precursor played important roles in triggering the anisotropic growth of the perovskite NCs, favoring their growth into 1D/2D single-crystalline nanostructures. Meanwhile, their sizes could be tailored by controlling the microwave powers and irradiation times. The mechanism for the tunable growth of perovskite NCs is discussed.

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“…For Sm 0.2 Sr 0.8 CoO 2.63 in both ZFC and FC measurement modes, an increase in the susceptibility at low temperatures was not noted (Fig. 4a), which is probably due to the small effective magnetic moment of the Sm 3+ ions (µ theor = 1.55 µ B ), although for LnCoO 3 (Ln = Sm, Gd, Dy) compounds [29,30], the increase in the susceptibility at low temperatures is characteristic of all compositions.…”

Section: Magnetic Propertiesmentioning

confidence: 93%

Structural, magnetic, electronic, and dilatation properties of the ordered solid solutions Ln0.2Sr0.8CoO3-δ (Ln = Sm, Gd, Dy) with the same oxygen nonstoichiometry index δ

Дудников

Orlov

Bushinsky³

et al. 2020

Journal of Alloys and Compounds

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Single-phase samples of the layered perovskite-like cobalt oxides Ln 0.2 Sr 0.8 CoO 3-δ (Ln = Sm, Gd, Dy) with the same oxygen nonstoichiometry index δ = 0.37 ± 0.01 were synthesized. All samples are characterized by a tetragonal unit cell with the space group I4/mmm. The structural, magnetic, electric transport and dilatation properties of the obtained samples are investigated. The studied samples are characterized by two anomalies in magnetic properties, a high-temperature maximum near Т m = 350 К with magnetic field hysteresis below T m , and a diffuse peak in the intermediate temperature range, which shifts with ionic radius decrease of the rare-earth element to higher temperatures. The high-temperature maxima of the magnetic susceptibility correlate with anomalies in thermal expansion, heat capacity and the features in the temperature dependences of the electrical resistivity, pointing to a strong relationship between the structural, magnetic and electronic degrees of freedom. The given comparative analysis of the experimental data of various substituting rare-earth elements with the same oxygen nonstoichiometry has been carried out for the first time.

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Microwave-Assisted Synthesis, Microstructure, and Magnetic Properties of Rare-Earth Cobaltites

Cited by 16 publications

References 47 publications

Effect of Multiplicity Fluctuation in Cobalt Ions on Crystal Structure, Magnetic and Electrical Properties of NdCoO3 and SmCoO3

Effect of Multiplicity Fluctuation in Cobalt Ions on Crystal Structure, Magnetic and Electrical Properties of NdCoO3 and SmCoO3

General Strategy for Rapid Production of Low-Dimensional All-Inorganic CsPbBr₃ Perovskite Nanocrystals with Controlled Dimensionalities and Sizes

Structural, magnetic, electronic, and dilatation properties of the ordered solid solutions Ln0.2Sr0.8CoO3-δ (Ln = Sm, Gd, Dy) with the same oxygen nonstoichiometry index δ

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Microwave-Assisted Synthesis, Microstructure, and Magnetic Properties of Rare-Earth Cobaltites

Cited by 16 publications

References 47 publications

Effect of Multiplicity Fluctuation in Cobalt Ions on Crystal Structure, Magnetic and Electrical Properties of NdCoO3 and SmCoO3

Effect of Multiplicity Fluctuation in Cobalt Ions on Crystal Structure, Magnetic and Electrical Properties of NdCoO3 and SmCoO3

General Strategy for Rapid Production of Low-Dimensional All-Inorganic CsPbBr3 Perovskite Nanocrystals with Controlled Dimensionalities and Sizes

Structural, magnetic, electronic, and dilatation properties of the ordered solid solutions Ln0.2Sr0.8CoO3-δ (Ln = Sm, Gd, Dy) with the same oxygen nonstoichiometry index δ

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General Strategy for Rapid Production of Low-Dimensional All-Inorganic CsPbBr₃ Perovskite Nanocrystals with Controlled Dimensionalities and Sizes