Haixue Yan scite author profile

Poly(vinylidene fluoride)-based dielectric materials are prospective candidates for high power density electric storage applications because of their ferroelectric nature, high dielectric breakdown strength and superior processability. However, obtaining a polar phase with relaxor-like behavior in poly(vinylidene fluoride), as required for high energy storage density, is a major challenge. To date, this has been achieved using complex and expensive synthesis of copolymers and terpolymers or via irradiation with high-energy electron-beam or γ-ray radiations. Herein, a facile process of pressing-and-folding is proposed to produce β-poly(vinylidene fluoride) (β-phase content: ~98%) with relaxor-like behavior observed in poly(vinylidene fluoride) with high molecular weight > 534 kg mol−1, without the need of any hazardous gases, solvents, electrical or chemical treatments. An ultra-high energy density (35 J cm−3) with a high efficiency (74%) is achieved in a pressed-and-folded poly(vinylidene fluoride) (670-700 kg mol−1), which is higher than that of other reported polymer-based dielectric capacitors to the best of our knowledge.

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Mechanical properties of graphene platelet-reinforced alumina ceramic composites

Liu

Yan

Jiang

2013

Ceramics International

336

152

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Unfolding grain size effects in barium titanate ferroelectric ceramics

Tan

Zhang

et al. 2015

Sci Rep

262

136

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Grain size effects on the physical properties of polycrystalline ferroelectrics have been extensively studied for decades; however there are still major controversies regarding the dependence of the piezoelectric and ferroelectric properties on the grain size. Dense BaTiO3 ceramics with different grain sizes were fabricated by either conventional sintering or spark plasma sintering using micro- and nano-sized powders. The results show that the grain size effect on the dielectric permittivity is nearly independent of the sintering method and starting powder used. A peak in the permittivity is observed in all the ceramics with a grain size near 1 μm and can be attributed to a maximum domain wall density and mobility. The piezoelectric coefficient d33 and remnant polarization Pr show diverse grain size effects depending on the particle size of the starting powder and sintering temperature. This suggests that besides domain wall density, other factors such as back fields and point defects, which influence the domain wall mobility, could be responsible for the different grain size dependence observed in the dielectric and piezoelectric/ferroelectric properties. In cases where point defects are not the dominant contributor, the piezoelectric constant d33 and the remnant polarization Pr increase with increasing grain size.

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Haixue Yan

High energy density in silver niobate ceramics

A Lead‐Free High‐Curie‐Point Ferroelectric Ceramic, CaBi₂Nb₂O₉

Ultrahigh β-phase content poly(vinylidene fluoride) with relaxor-like ferroelectricity for high energy density capacitors

Mechanical properties of graphene platelet-reinforced alumina ceramic composites

Unfolding grain size effects in barium titanate ferroelectric ceramics

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Haixue Yan

High energy density in silver niobate ceramics

A Lead‐Free High‐Curie‐Point Ferroelectric Ceramic, CaBi2Nb2O9

Ultrahigh β-phase content poly(vinylidene fluoride) with relaxor-like ferroelectricity for high energy density capacitors

Mechanical properties of graphene platelet-reinforced alumina ceramic composites

Unfolding grain size effects in barium titanate ferroelectric ceramics

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Product

Resources

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A Lead‐Free High‐Curie‐Point Ferroelectric Ceramic, CaBi₂Nb₂O₉