Lina Dong scite author profile

New understanding has been reached on competing forces acting to stabilize the polar surfaces of intrinsic ZnO. To compensate an accumulating dipole moment normal to ionic planes, the Madelung electrostatic force and the bonding ability of undercoordinated Zn ions compete to deplete more Zn atoms from the (0001) face and more O atoms from the (0001) face. In this competition, the former mechanism wins because it provides very low energy binding sites for O ions at face-centered-cubic registries on both surfaces. On the Zn-face, a distorted tetrahedral structure is formed, while on the O-face, a vertical Y structure is formed. In both structures, O ions form the topmost atomic plane. The reconstructed polar surfaces containing these novel structures have cleavage energy of 2.36 J/m 2 , comparable to that of nonpolar surfaces and in agreement with experimental observation. An earlier structure found on the Zn-face annealed at below 1000 K is stabilized mainly by the Madelung electrostatic force and is a metastable structure of that surface.

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Enhanced thermal conductivity and dielectric properties of Al/β-SiCw/PVDF composites

Zhou

Chen

Sui

et al. 2015

Composites Part A: Applied Science and Manufacturing

134

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Dielectric properties and thermal conductivity of PVDF reinforced with three types of Zn particles

Zhou

Wang

Dong

et al. 2015

Composites Part A: Applied Science and Manufacturing

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Enhanced mechanical and dielectric properties of an epoxy resin modified with hydroxyl-terminated polybutadiene

Kou

Zhou

et al. 2018

Composites Part A: Applied Science and Manufacturing

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Lina Dong

Stabilizing forces acting on ZnO polar surfaces: STM, LEED, and DFT

Enhanced thermal conductivity and dielectric properties of Al/β-SiCw/PVDF composites

Dielectric properties and thermal conductivity of PVDF reinforced with three types of Zn particles

Enhanced mechanical and dielectric properties of an epoxy resin modified with hydroxyl-terminated polybutadiene

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