CaCu3Ti4O12 ceramics from co-precipitation method: Dielectric properties of pellets and thick films

Barbier, B.; Combettes, Céline; Guillemet‐Fritsch, Sophie; Chartier, Thierry; Rossignol, Fabrice; Rumeau, Alexandre; Lebey, Thierry; Dutarde, E.

doi:10.1016/j.jeurceramsoc.2008.07.042

Cited by 71 publications

(44 citation statements)

References 14 publications

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“…A high dielectric loss appeared in the CCTO ceramic process as compared with BaTiO 3 [1,6]. There are several researches on the CCTO and BaTiO 3 ceramics which tried to improve the dielectric properties of these materials by controlling the manufacturing operations such as method, substitution, sintering time or temperature and calcinations time or temperature [11][12][13][14] and others tried to identify the nature of continued high dielectric constant of these ceramics [15,16]. Through our knowledge there is no any work to manufacturing ceramic which follow Structural, Dielectric and Electrical Properties of (1-x)CaCu 3 a mixture CCTO and BaTiO3 characteristics.…”

Section: Introductionmentioning

confidence: 99%

Structural, Dielectric and Electrical Properties of (1-x)CaCu3Ti4O12−xBaTiO3 Ceramics

Hadi¹,

Lamcharfi²,

Abdi³

et al. 2017

Asian J. Chem.

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In this work, the effect of BaTiO3 (BT) addition on structural, dielectric and electrical properties of CaCu3Ti4O12 (CCTO) ceramic was investigated. Ceramic samples with the chemical formula (1-x)CaCu3Ti4O12 -xBaTiO3, (1-x)CCTO-xBT, (x = 0.00, 0.10, 0.20, 0.30, 0.50 and 1.00) were synthesized by solid state route. The structural studies carried out by X-ray diffraction technique and showed that the perovskite structure cubic and tetragonal phases were formed without any other impurity phases. The addition of BaTiO3 into CCTO system lowered the last crystallite size to about 52 nm and increased the dielectric constant by four orders compared to pure CCTO. Moreover, the results of the complex impedance analyses of (1-x)CCTO-xBT ceramics samples confirmed the presence of non-Debye type of relaxation phenomenon and exhibited a negative temperature coefficient of resistance behaviour.Keywords: Ceramics, Barium titanate, Raman spectroscopy. Chemistry; Vol. 29, No. 8 (2017), 1811-1816 a mixture CCTO and BaTiO3 characteristics. In the present work we are reporting the synthesis of (1-x)CCTO-xBT by solid state reaction route. The structural, dielectric and electrical properties of (1-x)CaCu3Ti4O12-xBaTiO3 ceramics (where x = 0.00-1.00) were investigated. Asian Journal of EXPERIMENTALThe (1-x)CCTO-(x)BT samples were synthesized by means of a conventional mixed oxide route. High-purity oxides and carbonates; CaCO 3 (99.8 %) CuO (purity, 99 %), TiO 2 (purity, 99.95 %) and BaCO 3 (purity 99.5 %) (All Sigma Aldrich chemicals, USA) were used as starting materials.Synthesis of (1-x)CaCu 3 Ti 4 O 12− − − − −xBaTiO 3 : The powders were weighed in stoichiometric proportion and milled for 1 h. Then the slurry was dried in an oven at 80 °C. The calcinations processes of CCTO and BaTiO 3 powders were carried at 1050°Cand 1100 °C for 4 h, respectively. The synthesized powders were mixed in acetone according to the formula (1-x)CCTO-(x)BT for 2 h and dried at 400 °C for 1 h, after that the powders were crushed in agate mortar and pressed into pellets of about 12 mm diameter and 1.5 mm thickness. Then, the pellets sintered at 1050°C for 8 h and left at room temperature. The samples surfaces were coated by silver paste to serve as poles for the electrical measurements uses. Characterization of (1-x)CaCu3Ti4O12− − − − −xBaTiO3XRD analysis: The crystal structure of (1-x)CCTO-xBT was determined by using an X-ray diffractometer with a scanning rate of 0.02°/min for 2θ range 20°-80° by employing CuKα radiation wavelength λ = 1.5406 Å (diffractometer system = XPERT-PRO) under the conditions of 40 KV and 30 mA.Raman spectroscopy analysis: A micro Raman spectrometer, equipped with an excitation source of monochromatic with wavelength of 410 nm, was used to study the relationship between Raman lines and different types of atomic motions of CCTO and BaTiO3 in the (1-x)CCTO-xBT ceramics. After the sample processing, Raman spectra was collected at room temperature.Dielectric measurements analysis: The electrical properties of the ceramics were measu...

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Section: Introductionmentioning

confidence: 99%

Structural, Dielectric and Electrical Properties of (1-x)CaCu3Ti4O12−xBaTiO3 Ceramics

Hadi¹,

Lamcharfi²,

Abdi³

et al. 2017

Asian J. Chem.

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“…Lead-free nonferroelectric high dielectric constant materials with perovskite structure and ACu 3 Ti 4 O 12 composition (A = Ca, Bi 2/3 , Y 2/3 , La 2/3 , Nd 2/3 , Sm 2/3 , Gd 2/3 , Dy 2/3 ) [6][7][8][9][10][11][12] could be promising candidates to replace relaxors as dielectrics in MLCCs. These compounds exhibit relatively low sintering temperature enabling co-firing with Ag electrodes.…”

Section: Introductionmentioning

confidence: 99%

“…Most of the publications concerning these materials have focused on ceramics and thin films. So far, the application * corresponding author; e-mail: dszwagi@ite.waw.pl of ACu 3 Ti 4 O 12 compounds in thick films and low temperature co-fired ceramics (LTCC) technology has been rarely investigated [7,9]. The present paper reports on preparation of green tapes based on Bi 2/3 Cu 3 Ti 4 O 12 , as well as on fabrication and characterization of multilayer capacitors with dielectric layers based on this ceramic.…”

Section: Introductionmentioning

confidence: 99%

Application of High Permittivity Bismuth Copper Titanate in Multilayer Capacitors

Szwagierczak

Kulawik

2012

Acta Phys. Pol. A

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A nonferroelectric high permittivity compound with the perovskite structure, Bi 2/3 Cu 3 Ti 4 O 12 , was synthesized at 900• C. The ceramic powder and appropriate organic additives were used for preparation of a slurry for tape casting. The obtained green tapes were smooth, flexible, and with a uniform thickness of 25 µm after drying at 50• C. Ag electrodes were screen printed on green rectangular sheets cut by a laser. Subsequent operations were screen printing of Ag internal electrodes, stacking of green sheets, isostatic lamination, cutting, deposition of external terminations and co-firing of dielectric and conductive layers at 850• C. Scanning electron microscopy observations showed well sintered, dense, fine-grained microstructure of ceramic layers and good cooperation with the electrodes made of commercial Ag paste. Capacitance and dissipation factor of multilayer capacitors were examined in the temperature range from −55 to 330• C at frequencies 10 Hz-2 MHz. The fabricated multilayer capacitors exhibit high capacitance and relatively low temperature coefficient of capacitance in the temperature range from −55 to 110• C. The obtained lead-free high permittivity nonferroelectric material Bi 2/3 Cu 3 Ti 4 O 12 is a spontaneously formed internal barrier capacitor. This material seems to be a promising alternative for conventional lead-based relaxor dielectrics in multilayer ceramic capacitors.

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“…Barbier et al [52] studied the electrical properties of CaCu 3 Ti 4 O 12 -based pellets and thick films obtained from the similar raw precursor prepared by the co-precipitation method.The metal chlorides (CaCl 2 , TiCl 3 and CuCl 2 ·2H 2 O) were dissolved in water and then poured in ethanol-containing oxalic acid used as the precipitating agent. In order to obtain oxide powders, these precursors were calcined in air at 950 o C for 10 h and the dielectric characteristics of pellets and thick films were compared.The pellets exhibit high values of the dielectric permittivity (ε r ∼1.4×10 The micro-structural features as revealed by the HRTEM in nano-scale indicate that CuO 4 groups with the squashed tetrahedral geometry are more prevalent in the exterior regions of the powder particles as compared to the predominance of square-planar CuO 4 in the interior.…”

Section: Precipitation Methodmentioning

confidence: 99%

An Overview on Recent Developments in the Synthesis, Characterization and Properties of High Dielectric Constant Calcium Copper Titanate Nano-Particles

Mandal¹

2014

NSTOA

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CaCu3Ti4O12 ceramics from co-precipitation method: Dielectric properties of pellets and thick films

Cited by 71 publications

References 14 publications

Structural, Dielectric and Electrical Properties of (1-x)CaCu3Ti4O12−xBaTiO3 Ceramics

Structural, Dielectric and Electrical Properties of (1-x)CaCu3Ti4O12−xBaTiO3 Ceramics

Application of High Permittivity Bismuth Copper Titanate in Multilayer Capacitors

An Overview on Recent Developments in the Synthesis, Characterization and Properties of High Dielectric Constant Calcium Copper Titanate Nano-Particles

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