Influence of rare earth coordinated elements in titanium-based pyrochlores and their dielectric phenomena

Supriya, S.

doi:10.1016/j.ccr.2023.215319

Coordination Chemistry Reviews

2023

DOI: 10.1016/j.ccr.2023.215319

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Influence of rare earth coordinated elements in titanium-based pyrochlores and their dielectric phenomena

S. Supriya

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Cited by 15 publications

(3 citation statements)

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“…Men et al reported conquering grain growth and changes in the formation of pores due to La doping. 22 As published in our previous reports, 23 various titanium-based pyrochlores with several doping elements were reported. Rare elements like Sm, Dy, Gd, and Ce can enhance electrical properties.…”

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confidence: 73%

Review —Recent Advances in Yttrium Titanate Pyrochlores: Crystal Structure and Impact of Doping Elements

Supriya

2024

ECS J. Solid State Sci. Technol.

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The invention of yttrium titanates (Y2Ti2O7) with various exciting properties in electroceramics has created great attention among industrialists and researchers. Improving the materials of pyrochlore oxides with significant properties for future electronic devices became essential. The Y2Ti2O7 is one such cubic pyrochlore at room temperature, having excellent dielectric and luminescence properties. This article comprehensively reviews the basics and state-of-the-art in developing Y2Ti2O7 ceramics. This material is widely used for electronic devices: transducers, capacitors, optoelectronic components, and light modulators. This review focuses on the fabrication methods and crystal structure mechanisms for optimizing functional properties and current challenges. Moreover, the effect of doping elements of Y2Ti2O7-based ceramics is briefly discussed. Also, future perspectives are provided to spotlight new and trending research directions in this materials research.

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confidence: 73%

Review —Recent Advances in Yttrium Titanate Pyrochlores: Crystal Structure and Impact of Doping Elements

Supriya

2024

ECS J. Solid State Sci. Technol.

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“…20 The synergetic effect among ferrite nanoparticles (metal oxide) and graphene exhibit unique characteristics in metal oxide/graphene hybrid nanocomposites, which make them reasonable candidates for different applications like making electrochemical sensors and biosensors, energy storage devices, photocatalysts, energy transformation devices, fuel cells. [21][22][23][24] The literature is scarce about using copper and zinc doped manganese ferrite/reduced graphene oxide (Mn 1−x Zn x Fe 2−y Cu y O 4 /rGO) nanocomposite for drug determination. In this study, doped manganese ferrites Mn 1−x Zn x Fe 2−y Cu y O 4 were decorated on the graphene sheets of reduced graphene oxide.…”

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confidence: 99%

Utilizing as-synthesized Reduced Graphene Oxide Decorated with Mn_1−xZn_xFe_2−yCu_yO₄ Doped Magnetic Nanoparticles for Efficient Electrochemical Sensing of Paracetamol

Rahman,

Khan,

Khan

et al. 2024

J. Electrochem. Soc.

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A highly-sensitive sensor for paracetamol detection based on the copper- and zinc-doped manganese ferrite/reduced graphene oxide modified glassy carbon electrode (Mn1-xZnxFe2-yCuyO4/rGO/GCE) is ameliorated. X-ray diffraction, scanning electron microscopy, Fourier transform infrared spectrometry, zeta-sizer, cyclic voltammetry, and electrochemical impedance spectroscopy are used to examine the structural, morphological, and electroanalytical capability of the designed sensor. Results are correlated systematically for the copper/zinc doped manganese ferrite/reduced graphene oxide modified glassy carbon electrode and it is observed that the sensor exhibits two linear ranges as 5-9 and 9-200 µmol L-1 under the optimized conditions. Doped composite-modified GCE demonstrates an exceptional limit of detection (0.04 µmol L-1) and the limit of quantification (0.15 µmol L-1). The possible effect of structurally similar drugs on the anodic current response of paracetamol is evaluated. By analyzing the current generation of the actual pharmaceutical samples, the practical application of the manufactured sensor is assessed. Promising results demonstrated by modified GC electrode affirm its excellent analytical performance for the sensing of paracetamol with trace-level detection and high sensitivity.

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“…At present, there are two main ways to solve the above problems and modify the properties of the BIT ceramics. One is modification through component design, such as doping substitution at the A or B-site [14,15]. Element doping is an effective modification method that can significantly affect the microstructure and improve piezoelectric and ferroelectric properties [16−18]; the other is modification through preparation processes, such as the molten salt method [19].…”

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confidence: 99%

Enhanced piezoelectric performance of Cr/Ta non-equivalent co-doped Bi ₄Ti ₃O ₁₂-based high-temperature piezoceramics

Chen,

Ma,

et al. 2024

Journal of Advanced Ceramics

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In this study, (Cr 1/3 /Ta 2/3 ) non-equivalent co-doped Bi 4 Ti 3 O 12 (BIT) ceramics were prepared to solve the problem that high piezoelectric performance, high Curie temperature, and high-temperature resistivity could not be achieved simultaneously in BIT-based ceramics. A series of Bi 4 Ti 3−x (Cr 1/3 Ta 2/3 ) x O 12 (x = 0-0.04) ceramics were synthesized by the solid-state reaction method. The phase structure, microstructure, piezoelectric performance, and conductive mechanism of the samples were systematically investigated. The B-site non-equivalent co-doping strategy combining high-valence Ta 5+ and low-valence Cr 3+ significantly enhances electrical properties due to a decrease in oxygen vacancy concentration. Bi 4 Ti 2.97 (Cr 1/3 Ta 2/3 ) 0.03 O 12 ceramics exhibit a high piezoelectric coefficient (d 33 = 26 pC•N −1 ) and a high Curie temperature (T C = 687 ℃). Moreover, the significantly increased resistivity (ρ = 2.8×10 6 Ω•cm at 500 ℃) and good piezoelectric stability up to 600 ℃ are also obtained for this composition. All the results demonstrate that Cr/Ta co-doped BIT-based ceramics have great potential to be applied in high-temperature piezoelectric applications.

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Influence of rare earth coordinated elements in titanium-based pyrochlores and their dielectric phenomena

Cited by 15 publications

References 191 publications

Review —Recent Advances in Yttrium Titanate Pyrochlores: Crystal Structure and Impact of Doping Elements

Review —Recent Advances in Yttrium Titanate Pyrochlores: Crystal Structure and Impact of Doping Elements

Utilizing as-synthesized Reduced Graphene Oxide Decorated with Mn_1−xZn_xFe_2−yCu_yO₄ Doped Magnetic Nanoparticles for Efficient Electrochemical Sensing of Paracetamol

Enhanced piezoelectric performance of Cr/Ta non-equivalent co-doped Bi ₄Ti ₃O ₁₂-based high-temperature piezoceramics

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Influence of rare earth coordinated elements in titanium-based pyrochlores and their dielectric phenomena

Cited by 15 publications

References 191 publications

Review —Recent Advances in Yttrium Titanate Pyrochlores: Crystal Structure and Impact of Doping Elements

Review —Recent Advances in Yttrium Titanate Pyrochlores: Crystal Structure and Impact of Doping Elements

Utilizing as-synthesized Reduced Graphene Oxide Decorated with Mn1−xZnxFe2−yCuyO4 Doped Magnetic Nanoparticles for Efficient Electrochemical Sensing of Paracetamol

Enhanced piezoelectric performance of Cr/Ta non-equivalent co-doped Bi 4Ti 3O 12-based high-temperature piezoceramics

Contact Info

Product

Resources

About

Utilizing as-synthesized Reduced Graphene Oxide Decorated with Mn_1−xZn_xFe_2−yCu_yO₄ Doped Magnetic Nanoparticles for Efficient Electrochemical Sensing of Paracetamol

Enhanced piezoelectric performance of Cr/Ta non-equivalent co-doped Bi ₄Ti ₃O ₁₂-based high-temperature piezoceramics