Processing of dielectric oxynitride perovskites for powders, ceramics, compacts and thin films

Masubuchi, Yuji; Sun, Shi‐Kuan; Kikkawa, Shinichi

doi:10.1039/c4dt03811h

Cited by 45 publications

(25 citation statements)

References 99 publications

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“…4 Dielectric permittivity (ε r ) in centrosymmetric pseudocubic perovskites has been reported for a limited number of compounds, with values ranging from 16 for NdHfO 2 N 5 to 4900 for SrTaO 2 N. 6 The large permittivity values were earlier interpreted by the presence of local B−X (X = O and N) dipoles induced by the partial anion order; 7−9 however it has been recently emphasized that some of the reported gigantic ε r values may not be intrinsic but resulting from spurious effects due to poor sintering of the measured samples and leakage contributions. 10 The synthesis of perovskite oxynitrides has been mostly performed under NH 3 (g) at temperatures between 900−1000 °C. 11 The starting compounds are either ternary oxides or a mixture of oxides and carbonates.…”

Section: ■ Introductionmentioning

confidence: 99%

High-Temperature Synthesis and Dielectric Properties of LaTaON₂

et al. 2021

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The development of new synthetic methodologies of perovskite oxynitrides is challenging but necessary for the search of new compounds and the investigation of new properties. Here, we report a new method of preparation of the perovskite LaTaON 2 that has been investigated as a pigment and photocatalyst for water splitting. The synthesis proceeds through the solid-state reactions under N 2 at 1500 °C between La 2 O 3 , LaN, and Ta 3 N 5 or between LaN and TaON, which are completed after 3 h and lead to sintered, highly crystalline samples with particle sizes up to 1 μm. Nitrogen-deficient samples LaTaO 1+x N 2−x with x ≤ 0.35 are prepared by changing the N/O ratio in the mixture of reactants. Electron diffraction, synchrotron diffraction, and neutron diffraction studies on stoichiometric and nitrogen-deficient compounds indicate that they crystallize in the monoclinic space group I2/m with lattice parameters for LaTaON 2 of a = 5.71458( 7), b = 8.05987(10), c = 5.74772(6) Å, and β = 89.982(3)°. The three anion sites of the I2/m structure are partially occupied by oxygen and nitrogen, with a preference of nitride for two positions with occupancies of 77 and 88%. This anion distribution is different from that reported in previous studies of samples prepared by ammonolysis at lower temperature, suggesting that the synthesis conditions affect the anion order of this perovskite. Optical measurements indicate a band gap of about 1.9 eV, which is close to that observed in samples prepared by other methods. The determined dielectric permittivity for LaTaON 2 ε r ≈ 200, reported for the first time for a highly nitrided pseudocubic perovskite, is similar to that observed in perovskites with one nitrogen per formula.

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Section: ■ Introductionmentioning

confidence: 99%

High-Temperature Synthesis and Dielectric Properties of LaTaON₂

et al. 2021

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“…Even though there are potential applications, most of the reported properties include the effects of the surface layers, impurities, and grain connections. For the synthesis of oxynitrides and nitrides, a major approach is to heat (typically above 600-1000 °C) the oxide, sulfide, or chloride precursors under an ammonia flow; in these reactions, the temperature profile and ammonia flow rate should be kinetically controlled [12,[71][72][73]. Single crystals of several ABX2 compounds have been grown using flux methods (LiNbO2 [74,75], CaNb2O4 [47], and NaNbN2 [76]); however, many ABX2 compounds are only available in the powder form.…”

Section: Remarks On the Properties And Syntheses Of Abx2 Compoundsmentioning

confidence: 99%

Octahedral and trigonal-prismatic coordination preferences in Nb-, Mo-, Ta-, and W-based ABX2 layered oxides, oxynitrides, and nitrides

Miura

Tadanaga

Magome

et al. 2015

Journal of Solid State Chemistry

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Crystallographic and electronic structures of Nb-, Mo-, Ta-, and W-based layered oxides, oxynitrides, and nitrides were analyzed to elucidate the structural relationship between layered oxides and nitrides consisting of octahedral and trigonal-prismatic layers. The electron density, as derived by synchrotron X-ray analysis of LiNbO2 and Ta5−x(O,N)6, showed orbital overlaps between Nb-Nb and TaTa metals in the trigonal layers. Computational calculations based on DFT exhibited that these overlaps stabilized these structures by lowering the hybridization states composed of the , 2 − 2 , and 2 orbitals below the Fermi level. The crystal structures and formation energies suggest that tuning the Fermi level through the substitutions and vacancies of the cation/anion sites determines the structural preferences of the coordination. The properties and syntheses of these compounds are briefly described. This study enhances the understanding of layered oxides, oxynitrides, and nitrides to further the development of new synthetic approaches, compounds, and applications.

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“…Quarternary perovskite oxynitrides have been investigated for a number of possible applications such as pigments, semiconductors and dielectrics, LED phosphors, and in particular as photocatalysts for solar wastewater treatment,, air purification, or water splitting …”

Section: Introductionmentioning

confidence: 99%

“…Quarternary perovskite oxynitrides have been investigated for a number of possible applications [1] such as pigments, [2][3][4][5] semiconductors and dielectrics, [6][7][8][9] LED phosphors [10,11] and in particular as photocatalysts for solar wastewater treatment, [12,13] air purification, [14] or water splitting. [15][16][17] A wide variety of parameters can be adjusted to tailor the properties of oxynitrides, for example particle size or ammonolysis conditions.…”

Section: Introductionmentioning

confidence: 99%

Structure, Optical, and Photocatalytic Properties of Oxynitride Solid Solutions Ca_1–xSr_xNbO₂N, CaNb_1–xTa_xO₂N, and SrNb_1–xTa_xO₂N Prepared from Soft‐Chemistry Precursors

Jacobs

Oehler

Schettlock

et al. 2018

Zeitschrift anorg allge chemie

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Three perovskite oxynitride solid solutions Ca1–xSrxNbO2N, CaNb1–xTaxO2N, and SrNb1–xTaxO2N were prepared by low temperature ammonolysis of soft‐chemistry precursors. In particular, we present for the first time a way to synthesize the substitution series Ca1–xSrxNbO2N, which cannot be prepared by ammonolysis of classical solid state precursors. All samples were phase‐pure and exhibit bandgaps in the visible light range that can be tailored by substitutions both of the A‐ and B‐type cations. Rietveld analysis was applied to determine cell parameters and crystal structures. In the case of Ca1–xSrxNbO2N a structural change from orthorhombic to tetragonal was found. After loading with CoOx the photocatalytic activities in the solution‐based methyl orange degradation were investigated and for SrNb1–xTaxO2N a considerable activity was found.

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Processing of dielectric oxynitride perovskites for powders, ceramics, compacts and thin films

Cited by 45 publications

References 99 publications

High-Temperature Synthesis and Dielectric Properties of LaTaON₂

High-Temperature Synthesis and Dielectric Properties of LaTaON₂

Octahedral and trigonal-prismatic coordination preferences in Nb-, Mo-, Ta-, and W-based ABX2 layered oxides, oxynitrides, and nitrides

Structure, Optical, and Photocatalytic Properties of Oxynitride Solid Solutions Ca_1–xSr_xNbO₂N, CaNb_1–xTa_xO₂N, and SrNb_1–xTa_xO₂N Prepared from Soft‐Chemistry Precursors

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Processing of dielectric oxynitride perovskites for powders, ceramics, compacts and thin films

Cited by 45 publications

References 99 publications

High-Temperature Synthesis and Dielectric Properties of LaTaON2

High-Temperature Synthesis and Dielectric Properties of LaTaON2

Octahedral and trigonal-prismatic coordination preferences in Nb-, Mo-, Ta-, and W-based ABX2 layered oxides, oxynitrides, and nitrides

Structure, Optical, and Photocatalytic Properties of Oxynitride Solid Solutions Ca1–xSrxNbO2N, CaNb1–xTaxO2N, and SrNb1–xTaxO2N Prepared from Soft‐Chemistry Precursors

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High-Temperature Synthesis and Dielectric Properties of LaTaON₂

High-Temperature Synthesis and Dielectric Properties of LaTaON₂

Structure, Optical, and Photocatalytic Properties of Oxynitride Solid Solutions Ca_1–xSr_xNbO₂N, CaNb_1–xTa_xO₂N, and SrNb_1–xTa_xO₂N Prepared from Soft‐Chemistry Precursors