Local structure of condensed zinc oxide

“…Hexagonal wurtzite ZnO structure (space group C6mc), existing below 9 GPa [7], with the lattice parameters a=3.2495 Å, c=5.2069Å and u=0.345 was used in all calculations. It can be described as a number of alternating planes composed of tetrahedrally coordinated O 2-and Zn 2+ ions, stacked alternately along the c-axis.…”

Section: Theoretical Modellingmentioning

confidence: 99%

Zn K-edge XANES in nanocrystalline ZnO

Kuzmin

Larcheri

Rocca

2007

J. Phys.: Conf. Ser.

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“…The unit cell has two external lattice parameters: the basal plane (a) and uniaxial plane (c) and an internal parameter u, which describes the cation and anion positions relative to the z axis (Jaffe and Hess, 1993;Marana et al, 2008). The ZnO wurtzite structure belongs to the space group P63mc with a Bravais lattice (a = 3.250 Å and c = 5.207 Å and internal coordinate u = 0.382) (Decremps et al, 2003) and can be depicted as a zinc atom surrounded by four oxygen atoms with sp 3 -hybridization in a tetrahedron configuration along the caxis. In the ZnO this value is close to a hexagonal cell with a notional value of the c/a ratio of 1.633 (Morkoç and Özgür, 2009).…”

Section: Resultsmentioning

confidence: 99%

Optical and Structure Analysis of ZnO:Al Film

Trindade¹,

Chaves²,

Bortoleto³

et al. 2017

American Journal of Engineering and Applied Sciences

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ZnO and ZnO:Al are wide-bandgap semiconductors which have many applications, mainly as transparent conducting films. Thin films of these compounds were deposited onto glass and silicon substrates by RF magnetron sputtering for the investigation of structural and optical characteristics. The XRD results show that the films present wurtzite structure. The formation of a polycrystalline film having a preferential crystallographic orientation in the plane (002) is observed in the doped samples. The Al incorporated films exhibited optical transmittance above 80% in the visible spectrum and a clear absorption band in the infrared due to free carriers. Additionally, the optical band gap around 3.48 eV is significantly above the values for the intrinsic ZnO (3.25 eV). Photoluminescence (PL) measurements showed a broad emission band in the visible region. In addition, PL emission lines at 3.32 and 3.37 eV showed up in Al incorporated films, and were related to excitonic emissions. The results show that the Burstein-Moss effect plays a central role in determining the optical characteristics of the doped material.

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“…We suggest that the reduction of G can be explained by the competition of polarization directions because the piezoelectric potential of ZnO depends on a bending directions; the current induced by piezoelectricity increases (decreases) as compressive (stretching) force is applied to the ZnO wire [9]. Although the pressure is applied to all directions of ZnO, the amount of change of each bond length such as Zn-O and Zn-Zn is different [16]. It causes the variation of coordination [17] and the modulation of energy bandgap [18].…”

Section: Resultsmentioning

confidence: 99%

Electrical transport property of ZnO thin films at high H2 pressures up to 20 bar

Chu¹,

Kim²,

Kang³

2016

Journal of the Korean Physical Society

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We have investigated the H2 pressure-dependent (from vacuum to 20 bar) current-voltage characteristics of ZnO thin films prepared by spin coating method. The gas pressure effect on conductance (G) was subtracted using He gas. The G increased as applying 2 bar of H2 pressure, and then it monotonously decreased with the further increment of H2 pressure. Using X-ray diffraction patterns and X-ray photoelectron spectroscopy before and after H2 exposure, we found that the H2 spillover effect plays an important role in the variation of G of ZnO film.

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Local structure of condensed zinc oxide

Cited by 263 publications

References 37 publications

Zn K-edge XANES in nanocrystalline ZnO

Zn K-edge XANES in nanocrystalline ZnO

Optical and Structure Analysis of ZnO:Al Film

Electrical transport property of ZnO thin films at high H2 pressures up to 20 bar

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