Processing of dielectric nanocube 3D-assemblies and their high electrical properties for next-generation devices

Mimura, Ken-ichi

doi:10.2109/jcersj2.16104

Cited by 11 publications

(10 citation statements)

References 57 publications

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“…5 particle sizes) 89,90 . However, dense multilayered superlattice assemblies of BaTiO 3 nanocubes 29,84,[91][92][93] were also produced in some experiments, where the kinetic effects have been systematically controlled. The surface and inner structure were highly ordered with SC lattice and a packing fraction up to 90% 29,94 over a relatively large area of up to ∝ 10 µm 2 84,91,93,95 with thickness varying from several hundred nanometers 29,84,94 up to a ∝ 1 µm 95 (several examples are shown in Fig.…”

Section: Nanoperovkite Cubesmentioning

confidence: 99%

Manifestation of dipole-induced disorder in self-assembly of ferroelectric and ferromagnetic nanocubes

et al. 2019

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The colloidal processing of nearly monodisperse and highly crystalline single-domain ferroelectric or ferromagnetic nanocubes is a promising route to produce superlattice structures for integration into next-generation devices, whereas controlling the local behaviour of nanocrystals is imperative for fabricating highly-ordered assemblies. The current picture of nanoscale polarization in individual nanocrystals suggests a potential presence of a significant dipolar interaction, but its role in the condensation of nanocubes is unknown. We simulate the self-assembly of colloidal dipolar nanocubes under osmotic compression and perform the microstructural characterization of their densified ensembles. Our results indicate that the long-range positional and orientational correlations of perovskite nanocubes are highly sensitive to the presence of dipoles. 2 | 1-11 J o u r n a l N a me , [ y e a r ] , [ v o l . ] ,

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Section: Nanoperovkite Cubesmentioning

confidence: 99%

Manifestation of dipole-induced disorder in self-assembly of ferroelectric and ferromagnetic nanocubes

et al. 2019

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“…To develop thinner high-performance smartphones and wearable devices, such as eyeglass-type and wristwatch-type, miniaturization and improvement of the properties of dielectric devices such as multilayer ceramic capacitors (MLCCs) are required. An ordered assembly of BaTiO 3 nanocubes (nanocrystals) is a candidate as the main component of such devices [1][2][3][4][5][6][7][8][9][10]. The size of a BaTiO 3 nanocube is about 15 nm, which is much smaller than the typical BaTiO 3 -based particles of about 100 nm in diameter currently used in MLCCs [5,6,[11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Coexistence of Flexo- and Ferro-Electric Effects in an Ordered Assembly of BaTiO3 Nanocubes

et al. 2022

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It has been reported that the flexoelectric effect could be dominant in the nanoscale. The discrepancy between theory and experiments on the frequency dependence of the dielectric constant of an ordered assembly of BaTiO3 nanocubes is nearly resolved by assuming the coexistence of flexo- and ferro-electric effects. Although flexoelectric polarizations perpendicular to the applied alternating electric field contribute to the dielectric constant, those parallel to the electric field do not contribute because the magnitude of the flexoelectric polarization does not change due to the mismatch of strain at the interface of the nanocubes. On the other hand, some dielectric response is possible for the ferroelectric component of the polarization parallel to the electric field.

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“…The authors of previous studies have reported using platinum (Pt) 11 and palladium (Pd) 12 nanocubes as a base substance; however, the strain between the BaTiO 3 nanocubes led to a high dielectric constant in the densely assembled ceramic. 13 That is, BaTiO 3 nanocubes are necessary for the material design because of the surface properties of the particles. The synthesis of BaTiO 3 nanoparticles requires three key points: (1) a method to control the particle size because nanoscale materials are desirable as a consequence of their large specific surface area; (2) a method to control the particle shape because cubes are desirable as a consequence of the wide contract area between nanocubes; and (3) a method to control the particle surface as strain between nanocubes is desirable because it eliminates the need for a dispersant or surfactant.…”

Section: Introductionmentioning

confidence: 99%

Stabilization of Size-Controlled BaTiO₃ Nanocubes via Precise Solvothermal Crystal Growth and Their Anomalous Surface Compositional Reconstruction

et al. 2021

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Crystal growth of barium titanate (BaTiO 3 ) using a wet chemical reaction was investigated at various temperatures. BaTiO 3 nanoparticles were obtained at an energy-efficient temperature of 80 °C. However, BaTiO 3 nanocubes with a preferred size and shape could be synthesized using a solvothermal method at 200 °C via a reaction involving titanium tetraisopropoxide [(CH 3 ) 2 CHO] 4 Ti for nucleation and fine titanium oxide (TiO 2 ) nanoparticles for crystal growth. The BaTiO 3 nanocubes showed a high degree of dispersion without the use of dispersants or surfactants. The morphology of BaTiO 3 was found to depend on the reaction medium. The size of the BaTiO 3 particles obtained using water as the reaction medium was the largest among the particles synthesized using various reaction media. In the case of alcohol reaction media, the BaTiO 3 particle size increased in the order methanol, ethanol, 1-propanol, 1-butanol, and 1-pentanol. Furthermore, BaTiO 3 powder obtained using alcohol reaction media resulted in cubic shapes as opposed to the round shapes obtained when water was used as the medium. We found that the optimal condition for the synthesis of BaTiO 3 nanocubes involved the use of 1-butanol as the reaction medium, resulting in an average particle size of 52 nm, which is the average distance of the cubes measured diagonally from corner to corner, and gives an average side length of 37 nm, and a tetragonal crystal system as evidenced by the powder X-ray diffraction pattern obtained using high-energy synchrotron X-rays. The origin of the spontaneous polarization of the BaTiO 3 tetragonal crystal structure was clarified by a pair distribution function analysis. In addition, surface reconstruction of BaTiO 3 nanocubes led to an outermost surface comprising two layers of Ti columns.

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Processing of dielectric nanocube 3D-assemblies and their high electrical properties for next-generation devices

Cited by 11 publications

References 57 publications

Manifestation of dipole-induced disorder in self-assembly of ferroelectric and ferromagnetic nanocubes

Manifestation of dipole-induced disorder in self-assembly of ferroelectric and ferromagnetic nanocubes

Coexistence of Flexo- and Ferro-Electric Effects in an Ordered Assembly of BaTiO3 Nanocubes

Stabilization of Size-Controlled BaTiO₃ Nanocubes via Precise Solvothermal Crystal Growth and Their Anomalous Surface Compositional Reconstruction

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Processing of dielectric nanocube 3D-assemblies and their high electrical properties for next-generation devices

Cited by 11 publications

References 57 publications

Manifestation of dipole-induced disorder in self-assembly of ferroelectric and ferromagnetic nanocubes

Manifestation of dipole-induced disorder in self-assembly of ferroelectric and ferromagnetic nanocubes

Coexistence of Flexo- and Ferro-Electric Effects in an Ordered Assembly of BaTiO3 Nanocubes

Stabilization of Size-Controlled BaTiO3 Nanocubes via Precise Solvothermal Crystal Growth and Their Anomalous Surface Compositional Reconstruction

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Stabilization of Size-Controlled BaTiO₃ Nanocubes via Precise Solvothermal Crystal Growth and Their Anomalous Surface Compositional Reconstruction