Gd/Mn Co-Doped CaBi4Ti4O15 Aurivillius-Phase Ceramics: Structures, Electrical Conduction and Dielectric Relaxation Behaviors

Wu, Daowen; Zhou, Huajiang; Li, Lingfeng; Chen, Yu

doi:10.3390/ma15175810

Cited by 6 publications

(4 citation statements)

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“…Senyawa Aurivillius CaBi 4 Ti 4 O 15 yang didoping Gd/Mn dengan formula Ca 1-x Gd x Bi 4 Ti 4 O 15 /0,2Mn berfasa tunggal berhasil disintesis. Analisis lanjutan dengan refinement Rietveld menunjukkan bahwa Gd 3+ berhasil menggantikan Ca 2+ di situs A. Peningkatan nilai x menunjuk-kan perilaku relaksor feroelektrik pada material [7]. Peningkatan komposisi dopan pada senyawa Aurivillius lapis empat Ca 1-x Bi 3+x LaTi 4-x Mn x O 15 meningkatkan nilai konstanta dielektrik yang dihasilkan akibat distorsi struktur [8].…”

Section: Pendahuluanunclassified

“…Besarnya ukuran kristal dari senyawa Aurivillius Ca 1-x Ba x Bi 3,5 La 0,5 Ti 4 O 15 ditampilkan pada Tabel 1. Ukuran kristal terlihat menurun dengan kenaikan nilai x. Penurunan ukuran kristal disebabkan oleh beberapa faktor, seperti laju difusi antara ion Ba 2+ dan Ca 2+ mempengaruhi laju pertumbuhan kristal di berbagai arah, yang berkontribusi pada pembentukan kristal dengan ukuran yang lebih kecil [7]. Selain itu, penambahan ion Ba 2+ dengan jari-jari ion yang lebih besar terhadap ion Ca 2+ menghasilkan tegangan dalam kisi kristal, yang menyebabkan pembentukan lebih banyak cacat atau dislokasi dan membatasi pertumbuhan kristal [13].…”

Section: Hasil Dan Diskusi 31 Hasil Analisis Pola Difraksi Sinar-x Id...unclassified

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Sintesis Lapis Empat Fasa Aurivillius Ca1-xBaxBi3,5La0,5Ti4O15 Dengan Metode Lelehan Garam

Zulhadjri,

Silpa,

Rahmayeni

et al. 2024

J. Kim. Unand

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The four-layer Aurivillius phase Ca1-xBaxBi3.5La0.5Ti4O15 (x = 0.2, 0.4, 0.6, 0.8, and 1) has been synthesized by molten salt method. The effect of varying x on the structure, morphology, and dielectric properties was studied. X-ray diffraction (XRD) and Le Bail refinement revealed that the compounds with the composition x = 0, 0.2, and 0.4 were single-phase product with orthorhombic A21am structure, whereas for higher x value (composition of Ba doped), a Ba2TiO4 impurity is found in products. Changes in unit cell volume were investigated, and the size increased with larger x. The substitution of larger Ba2+ ions resulted in a shorter Ti-O bond, shifting vibration mode to higher wave number that showed in FTIR spectra. SEM images show anisotropic plate-like grain with distributed particle sizes at 1.9 – 3.1μm. The dielectric constant values decrease with increasing x, otherwise the dielectric loss values increase for x = 0 and 0.2, however decrease for x = 0.4. The resulting Aurivillius compound has potential for applications in ferroelectric and piezoelectric devices.

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Section: Pendahuluanunclassified

Section: Hasil Dan Diskusi 31 Hasil Analisis Pola Difraksi Sinar-x Id...unclassified

Sintesis Lapis Empat Fasa Aurivillius Ca1-xBaxBi3,5La0,5Ti4O15 Dengan Metode Lelehan Garam

Zulhadjri,

Silpa,

Rahmayeni

et al. 2024

J. Kim. Unand

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“…There exist several research reports where scientists have reported their work on improving the values of remnant polarization ( P r ), d 33 and T C by modifying fabrication techniques or by doping the ions at A and B sites of CBT. Recently, Wu et al reported the fabrication of Gd/Mn co-coped CaBi 4 Ti 4 O 15 ceramics, where a high dc conduction activation energy value of 1.87 eV was reported [ 18 ]. Xi et al fabricated a Ca 0.85 (LiCe) 0.075 Bi 4 Ti 4− x Zn x O 15 ceramic system and reported a high d 33 of 20 pC/N [ 13 ].…”

Section: Introductionmentioning

confidence: 99%

Influence of Mn Ions’ Insertion in Pseudo-Tetragonal Phased CaBi4Ti4O15-Based Ceramics for Highly Efficient Energy Storage Devices and High-Temperature Piezoelectric Applications

Hussain

Jabeen

Hassan

et al. 2022

IJMS

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In the present era of advanced technology, the surge for suitable multifunctional materials capable of operating above 300 °C has increased for the utilization of high-temperature piezoelectric devices. For this purpose, a pseudo-tetragonal phased CaBi4Ti3.98 (Nb0.5Fe0.5)0.02O15:xwt%MnO2 (CBTNF:xMn), with x = 0–0.20, ceramic system has been engineered for the investigation of structural, ferroelectric, dielectric and high-temperature-dependent piezoelectric properties. XRD analysis confirms that low-content Mn-ion insertion at the lattice sites of CBTNF does not distort the pseudo-tetragonal phase lattice of CBTNF:xMn ceramics, but enhances the functional behavior of the ceramic system, specifically at x = 0.15 wt%Mn. Compared to pure CBT and CBTNF ceramics, CBTNF:0.15Mn has demonstrated a highly dense relative density (~96%), a saturated polarization (PS) of 15.89 µC/cm2, a storage energy density (WST) of ~1.82 J/cm3, an energy-conversion efficiency (ƞ) of ~51% and an upgraded piezoelectric behavior (d33) of 27.1 pC/N at room temperature. Sharp temperature-dependent dielectric constant (εr) peaks display the solid ferroelectric behavior of the CBTNF:0.15Mn sample with a Curie temperature (TC) of 766 °C. The thermally stable piezoelectric performance of the CBTNF:0.15Mn ceramic was observed at 600 °C, with just a 0.8% d33 loss (25 pC/N). The achieved results signify that multi-valence Mn ions have effectively intercalated at the lattice sites of the pseudo-tetragonal phased CBTNF counterpart and enhanced the multifunctional properties of the ceramic system, proving it to be a durable contender for utilization in energy-storage applications and stable high-temperature piezoelectric applications.

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“…The authors of [20] reported the effects of oxide additives on the phase structures and electrical properties of SrBi 4 Ti 4 O 15 high-temperature piezoelectric ceramics. The authors of [21] revealed the structures, electrical conduction and dielectric relaxation behaviors of the Gd/Mn co-doped CaBi 4 Ti 4 O 15 Aurivillius-phase ceramics. By means of the chemical (substituting ions and oxide additives) modification and microstructural (phase composition and grain size/orientation) design for these three kinds of BLSFs ceramics, the electrical properties of materials were greatly improved.…”

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confidence: 99%

Microstructural Design and Processing Control of Advanced Ceramics

Chen

Wang

2023

Materials

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Gd/Mn Co-Doped CaBi4Ti4O15 Aurivillius-Phase Ceramics: Structures, Electrical Conduction and Dielectric Relaxation Behaviors

Cited by 6 publications

References 42 publications

Sintesis Lapis Empat Fasa Aurivillius Ca1-xBaxBi3,5La0,5Ti4O15 Dengan Metode Lelehan Garam

Sintesis Lapis Empat Fasa Aurivillius Ca1-xBaxBi3,5La0,5Ti4O15 Dengan Metode Lelehan Garam

Influence of Mn Ions’ Insertion in Pseudo-Tetragonal Phased CaBi4Ti4O15-Based Ceramics for Highly Efficient Energy Storage Devices and High-Temperature Piezoelectric Applications

Microstructural Design and Processing Control of Advanced Ceramics

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