Superior Energy Storage Properties of Samarium-Doped Bismuth Sodium Titanate-Based Lead-Free Ceramics

Tang, Xuyao; Hu, Zimeng; Koval, Vladimir V.; Yang, Bin; Smith, Graham C.; Yan, Haixue

doi:10.2139/ssrn.4289835

Cited by 2 publications

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“…6(f). 9,12,14,15,21,28,[56][57][58][59][60][61][62] The results clearly show that the x = 4 ceramic is superior to other lead-free energy storage ceramics in terms of unit mass and lightweight capability. The pulsed charge-discharge performance is also crucial for practical dielectric energy storage applications, and relevant measurements are shown in Fig.…”

Section: Resultsmentioning

confidence: 99%

Achieving high energy density/efficiency in light-metal-element-rich relaxor ferroelectric ceramics by annihilating volatile Schottky defects

Lou,

Bao,

Chai

et al. 2024

J. Mater. Chem. A

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Section: Resultsmentioning

confidence: 99%

Achieving high energy density/efficiency in light-metal-element-rich relaxor ferroelectric ceramics by annihilating volatile Schottky defects

Lou,

Bao,

Chai

et al. 2024

J. Mater. Chem. A

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“…To illustrate the advantages of ESP under similar conditions, ESP (including W rec and 𝜂 values) of the reported promising lead-free energy storage ceramics prepared by solid-state reaction and under medium electric fields (<500 kV cm −1 ) are compared with those of the ceramics in this work, as shown in Figure 5g. [1,12,13,32,33,[41][42][43][44][45][46][47][48] Apparently, an ultrahigh W rec (5.39 J cm −3 ) along with a high 𝜂 (91.97%) can be realized in the Yb/Tm-xZTH ceramics, superior to most reported lead-free dielectric ceramics, authenticating that they are suitable for TPCs applications. (between 300 and 500 °C) and frequencies (between 10 2 and 10 6 Hz), where Z′ and Z″ stand for the real and imaginary components of the complex impedance (Z), accordingly.…”

Section: Energy Storage Performance and Stabilitymentioning

confidence: 99%

Superior Energy Storage Capability and Fluorescence Negative Thermal Expansion of NaNbO₃‐Based Transparent Ceramics by Synergistic Optimization

Zeng,

Lin,

Chen

et al. 2024

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Transparent dielectric ceramics are splendid candidates for transparent pulse capacitors (TPCs) due to splendid cycle stability and large power density. However, the performance and service life of TPCs at present are threatened by overheating damage caused by dielectric loss. Here, a cooperative optimization strategy of microstructure control and superparaelectric regional regulation is proposed to simultaneously achieve excellent energy storage performance and real‐time temperature monitoring function in NaNbO3‐based ceramics. By introducing aliovalent ions and oxides with large bandgap energy, the size of polar nanoregions is continuously reduced. Due to the combined effect of increased relaxor behavior and fine grains, excellent comprehensive performances are obtained through doping appropriate amounts of Bi, Yb, Tm, and Zr, Ta, Hf in A‐ and B‐sites of the NaNbO3 matrix, including recoverable energy storage density (5.39 J cm−3), extremely high energy storage efficiency (91.97%), ultra‐fast discharge time (29 ns), and superior optical transmittance (≈47.5% at 736 nm). Additionally, the phenomenon of abnormal fluorescent negative thermal expansion is realized due to activation mechanism of surface phonon at high temperatures that can promote the formation of [Yb···O]‐Tm3+ pairs, showing great potential in real‐time temperature monitoring of TPCs. This research provides ideas for developing electronic devices with multiple functionalities.

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Superior Energy Storage Properties of Samarium-Doped Bismuth Sodium Titanate-Based Lead-Free Ceramics

Cited by 2 publications

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Achieving high energy density/efficiency in light-metal-element-rich relaxor ferroelectric ceramics by annihilating volatile Schottky defects

Achieving high energy density/efficiency in light-metal-element-rich relaxor ferroelectric ceramics by annihilating volatile Schottky defects

Superior Energy Storage Capability and Fluorescence Negative Thermal Expansion of NaNbO₃‐Based Transparent Ceramics by Synergistic Optimization

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Superior Energy Storage Properties of Samarium-Doped Bismuth Sodium Titanate-Based Lead-Free Ceramics

Cited by 2 publications

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Achieving high energy density/efficiency in light-metal-element-rich relaxor ferroelectric ceramics by annihilating volatile Schottky defects

Achieving high energy density/efficiency in light-metal-element-rich relaxor ferroelectric ceramics by annihilating volatile Schottky defects

Superior Energy Storage Capability and Fluorescence Negative Thermal Expansion of NaNbO3‐Based Transparent Ceramics by Synergistic Optimization

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Superior Energy Storage Capability and Fluorescence Negative Thermal Expansion of NaNbO₃‐Based Transparent Ceramics by Synergistic Optimization