Microwave dielectric properties of magnesium calcium titanate thin films

Lee, Byoung Duk; Lee, Hong Ryul; Yoon, Ki Hyun; Cho, Yong S.

doi:10.1016/j.ceramint.2004.04.001

Cited by 41 publications

(16 citation statements)

References 15 publications

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“…Therefore, much attention has been focused on the synthesis of MgTiO 3 . Various synthesis methods were reported in the past decade, such as solid-state reaction method [4][5][6], thermal decomposition of peroxide precursors [7], chemical coprecipitation [8], mechanochemical complexation route [9], metalorganic chemical vapor deposition [10], metalorganic solution deposition technique [11] and sol-gel method [2,12,13]. Though these methods were effective to prepare MgTiO 3 powders, almost no efforts were made to synthesize MgTiO 3 nanomaterials for its possible morphologydependent properties.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of tetragonal flake-like magnesium titanate nanocrystallites

Kang

Wang

Xue

et al. 2008

Journal of Alloys and Compounds

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Section: Introductionmentioning

confidence: 99%

Synthesis of tetragonal flake-like magnesium titanate nanocrystallites

Kang

Wang

Xue

et al. 2008

Journal of Alloys and Compounds

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“…Therefore, we reported the structure and morphology of the obtained material, furthermore the dielectric and magnetic properties measured in the Radio-Microwave frequencies. The production and study of the properties of this new composite are important due to their possible applications in bulk devices (microwave resonators, circulators and oscillators) and thick or thin films (Microstrip antennas) [16,22,[27][28][29][30].…”

Section: Introductionmentioning

confidence: 99%

Novel magnetic–dielectric composite ceramic obtained from Y3Fe5O12 and CaTiO3

Paiva

Silva

Ribeiro

et al. 2015

Journal of Alloys and Compounds

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“…The features of these materials have recently been exploited in packaging, microwave dielectrics, fuel cells, batteries, and memory storage devices [31][32][33][34][35]. In most perovskite materials, except CCTO (Cu x Ca 1-x TiO 3 ), temperature plays a significant role in determining the structural behavior, phase transition, and morphological changes, which impute the internal grain boundary layer capacitance (IBLC).…”

Section: Introductionmentioning

confidence: 99%

Effect of temperature on the electrical properties of nanocrystalline CaTi1−x Fe x O3−Δ perovskite

Mathu¹,

Nehru²,

Vinoth³

et al. 2015

J Mater Sci: Mater Electron

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Calcium titanate nanopowder doped with high content (1 M%) of iron was synthesized using simple sol-gel method. The four obtained samples were post-sintered at 100, 500, 900, and 1250°C to get soft agglomerates of nanocrystalline perovskites, which were deagglomerated by wet milling process using ethanol as a medium. The general stoichiometric formula for iron-doped CaTiO 3 was symbolized as CaTi 1-x Fe x O 3-d . The crystallographic structure of perovskites was found to be orthorhombic for all the four samples. The real and imaginary parts of the impedance values of sintered samples as a function of frequency were obtained using complex impedance spectroscopy. All the instrumental parameters were calibrated before initiating the measurements. The frequency range was set between 0.01 Hz and 1 MHz, and AC bias voltage was maintained at 50 mV. The objective of this work was to find the economical relevance of pioneering materials for electronic applications such as hydrogen production in fuel cells, solar plant, ferroelectric memory devices, microwave resonators, and sensible membranes as they are cheap and readily available, and can be prepared using controllable synthesis in a commercial laboratory.

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Microwave dielectric properties of magnesium calcium titanate thin films

Cited by 41 publications

References 15 publications

Synthesis of tetragonal flake-like magnesium titanate nanocrystallites

Synthesis of tetragonal flake-like magnesium titanate nanocrystallites

Novel magnetic–dielectric composite ceramic obtained from Y3Fe5O12 and CaTiO3

Effect of temperature on the electrical properties of nanocrystalline CaTi1−x Fe x O3−Δ perovskite

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