Xiyang Peng scite author profile

A series of the twinned 8H hexagonal perovskites in the Ba 4 LiNb 3Àx Ta x O 12 (x 5 0-3) system were synthesized by the conventional solid-state reaction method. Ba 4 LiNb 3Àx Ta x O 12 solid solutions were single phase in the whole range of x values. The ceramics exhibit perfect microwave dielectric properties with relative permittivity, e r B28-37, high quality factor, Q Â fB37 000-104 000 GHz, and temperature coefficient of resonant frequency, s f B125-165 ppm/1C.

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Dielectric Properties of Ba₄Sm₂Fe₂M₈O₃₀ (M=Nb, Ta) with Tetragonal Bronze Structure

Fang

Peng

et al. 2010

Journal of the American Ceramic Society

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The tetragonal tungsten bronze (TTB)‐structured Ba4Sm2Fe2M8O30 (M=Nb, Ta) dielectrics were prepared and investigated. Dielectric and ferroelectric behaviors revealed that the niobate and the tantalate display ferroelectric and paraelectric nature at room temperature (RT), respectively. The dielectric spectrum showed that Ba4Sm2Fe2Ta8O30 ceramic has a high dielectric constant (∼97), a comparatively low temperature coefficient of dielectric constant (∼−105 ppm/°C), and a low dielectric loss (∼10−3) (at 1 MHz). These results indicated that the present tantalate might be a new temperature‐compensating ceramic.

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Preparation and adsorption behavior of berberine hydrochloride imprinted polymers by using silica gel as sacrificed support material

et al. 2012

Applied Surface Science

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Characterization and dielectric properties of Sr4M2Ti4Ta6O30 (M=Pr and Eu) ceramics

Fang

Peng

et al. 2010

Journal of Alloys and Compounds

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Ba₄Ln₂Fe₂Ta₈O₃₀ (Ln=Pr, Eu): Temperature‐Stable Low Loss Dielectrics with a Tungsten Bronze Structure

Fang

Peng

et al. 2010

Journal of the American Ceramic Society

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The dielectric ceramics Ba4Pr2Fe2Ta8O30 and Ba4Eu2Fe2Ta8O30 with a tetragonal tungsten bronze structure were synthesized and characterized. Dielectric and ferroelectric behaviors indicated that the ceramics are paraelectric above room temperature. Dielectric measurement showed that the present ceramics have high‐temperature stability, a comparatively low temperature coefficient of dielectric constant (τɛ) of −30 and −63 ppm/°C, with a high dielectric constant (ɛr) of 110 and 87.6 together with a low dielectric loss (tan δ) of 0.0010 and 0.0012 (at 1 MHz) for Ba4Pr2Fe2Ta8O30 and Ba4Eu2Fe2Ta8O30, respectively. These results indicated that the Ba4Ln2Fe2Ta8O30 (Ln=Pr, Eu) ceramics might be promising in temperature‐stable multilayer ceramic capacitors.

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Xiyang Peng

Ba₄LiNb_3−xTa_xO₁₂ (x=0–3): A Series of High‐Q Microwave Dielectrics from the Twinned 8H Hexagonal Perovskites

Dielectric Properties of Ba₄Sm₂Fe₂M₈O₃₀ (M=Nb, Ta) with Tetragonal Bronze Structure

Preparation and adsorption behavior of berberine hydrochloride imprinted polymers by using silica gel as sacrificed support material

Characterization and dielectric properties of Sr4M2Ti4Ta6O30 (M=Pr and Eu) ceramics

Ba₄Ln₂Fe₂Ta₈O₃₀ (Ln=Pr, Eu): Temperature‐Stable Low Loss Dielectrics with a Tungsten Bronze Structure

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Xiyang Peng

Ba4LiNb3−xTaxO12 (x=0–3): A Series of High‐Q Microwave Dielectrics from the Twinned 8H Hexagonal Perovskites

Dielectric Properties of Ba4Sm2Fe2M8O30 (M=Nb, Ta) with Tetragonal Bronze Structure

Preparation and adsorption behavior of berberine hydrochloride imprinted polymers by using silica gel as sacrificed support material

Characterization and dielectric properties of Sr4M2Ti4Ta6O30 (M=Pr and Eu) ceramics

Ba4Ln2Fe2Ta8O30 (Ln=Pr, Eu): Temperature‐Stable Low Loss Dielectrics with a Tungsten Bronze Structure

Contact Info

Product

Resources

About

Ba₄LiNb_3−xTa_xO₁₂ (x=0–3): A Series of High‐Q Microwave Dielectrics from the Twinned 8H Hexagonal Perovskites

Dielectric Properties of Ba₄Sm₂Fe₂M₈O₃₀ (M=Nb, Ta) with Tetragonal Bronze Structure

Ba₄Ln₂Fe₂Ta₈O₃₀ (Ln=Pr, Eu): Temperature‐Stable Low Loss Dielectrics with a Tungsten Bronze Structure