Structural and photoluminescent properties of ZnO films deposited by radio frequency reactive sputtering

Xu, Peng; Yin, Shi; Tao, Ji; Zang, Hang; Yang, Yinghu; Jin, Yufeng

doi:10.1007/s11433-007-0007-0

Cited by 9 publications

(4 citation statements)

References 17 publications

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“…In fact, a significant disagreement between the experimental and fitted spectra occurs when only two components (corresponding to SiO 2 and ZnO) are included. In fact, in many studies on the ZnO-SiO 2 composites, the adjustment of the O 1s XPS spectra is performed with three components [39,40]. The calculated binding energies of the three components are respectively 533.0, 532. values ( 532 eV).…”

Section: Composition and Structural Characterizationmentioning

confidence: 99%

“…The calculated binding energies of the three components are respectively 533.0, 532. values ( 532 eV). These high values are usually attributed to the presence of OH − groups integrated in the material and to loosely bound oxygen on the surface such as H 2 O [37,40]. The displacement of the medium component towards high binding energy values and the absence of other significant components around 531 eV suggest the existence of a low proportion of oxygen deficient regions within the matrix of ZnO [41].…”

Section: Composition and Structural Characterizationmentioning

confidence: 99%

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Mesosynthesis of ZnO–SiO₂porous nanocomposites with low-defect ZnO nanometric domains

et al. 2008

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Silica-based ZnO-MCM-41 mesoporous nanocomposites with high Zn content (5≤Si/Zn≤50) have been synthesized by a one-pot surfactant-assisted procedure from aqueous solution using a cationic surfactant (CTMABr = cetyltrimethylammonium bromide) as structure-directing agent, and starting from molecular atrane complexes as inorganic hydrolytic precursors. This preparative technique allows optimization of the dispersion of the ZnO nanodomains in the silica walls. The mesoporous nature of the final materials is confirmed by x-ray diffraction (XRD), transmission electron microscopy (TEM) and N(2) adsorption-desorption isotherms. The ZnO-MCM-41 materials show unimodal pore size distributions without blocking of the pore system even for high Zn content. A careful optical spectroscopic study (using x-ray photoelectron spectroscopy (XPS), photoluminescence (PL) and UV-visible spectroscopy) of these materials shows that, irrespective of the Si/Zn ratio, the Zn atoms are organized in well-dispersed, uniform low-defect ZnO nanodomains (radius about 1 nm) and are partially embedded within the silica walls.

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Section: Composition and Structural Characterizationmentioning

confidence: 99%

Section: Composition and Structural Characterizationmentioning

confidence: 99%

Mesosynthesis of ZnO–SiO₂porous nanocomposites with low-defect ZnO nanometric domains

et al. 2008

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“…When the substrate temperature was lower, this kind of poly group attached to the substrate surface would be oxidized by NO 2 , and then the structure of former poly(Zn-O) n group would be destructed to get single Zn-O. This is similar to the theory in many reports [8,9] using sputtering or pulsed laser to deposit ZnO films with (002) preferential orientation and is different from the general CVD method. For the general CVD method, the poly group is directly deposited on the substrate, and then decomposed to obtain ZnO films, so the films usually exhibit (100), (101) and (110) orientations [10,11] .…”

Section: Electrical Propertiesmentioning

confidence: 51%

High quality p-type ZnO film growth by a simple method and its properties

et al. 2008

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“…Different types of morphologies such as nanotubes, nanowires, Nano belts, Nano sheets, Nano flowers, Nano rods has been synthesized by various physical and chemical routes such as sol gel with spin and dip coating [16,17]. Spray pyrolysis, hydrothermal method, Rf magnetron sputtering and simple combustion method [18][19][20][21]. Among these techniques, simple combustion method and thermal evaporation technique have more advantageous than others because of their low cost, simplicity in process control, suitable for preparing nanostructure metal oxides.…”

Section: Introductionmentioning

confidence: 99%

Tri-doped co-annealed zinc oxide semi-conductor synthesis and characterization: photodegradation of dyes and gas sensing applications

Rakhra

Verma²

2021

J Mater Sci: Mater Electron

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Despite the fact that much of the research has been performed on ZnO-based nanoparticles but still a lot of unexplored The synthesis and characterization of the ZnO Nano rinds, which have been co-created using a simple combustion method, are documented here and are prepared with its sensor and photocatalytic degradations. In, Sn and SB specific quantity was used as dopants, while their effects were co-annealed on glass substrate at different temperatures, i.e. 1.0 percent and 1.5 percent at 500 0 C, 1100 0. At varying temperatures, the samples were coated on to the chosen substrate using doctor blade technique. Crystallite scale was measured to the range of 30-50 nm. At such temperatures the grain size measured for the samples was in range of 50-70 nm. This showed that the prepared Nano rods are well crystalline and have strong optical properties to handle. Studies of X ray diffraction showed the influential point (101). These coated samples designed for nitrogen gas sensing have been tested for the development of smart and functional instruments. Furthermore it was observed that the samples prepared at higher temperatures exhibit better recovery and better reaction time. Valance ion process explains the gas sensors fast reaction and long recovery time. Thus prepared ZnO nanoparticles are have photocattalytic degredation (99.86%) only in 55 min. We observed optimum exposure at an operating temperature of 105 0 C. It is notable that morphology of susceptible layer nanoparticles is preserved based on different tri-doping concentrations. The concentration of T2-ZnO nanoparticles for photodegradation of the DR-31 dye and NO 2 gas sensing applications were 1.0 at.wt%

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Structural and photoluminescent properties of ZnO films deposited by radio frequency reactive sputtering

Cited by 9 publications

References 17 publications

Mesosynthesis of ZnO–SiO₂porous nanocomposites with low-defect ZnO nanometric domains

Mesosynthesis of ZnO–SiO₂porous nanocomposites with low-defect ZnO nanometric domains

High quality p-type ZnO film growth by a simple method and its properties

Tri-doped co-annealed zinc oxide semi-conductor synthesis and characterization: photodegradation of dyes and gas sensing applications

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Structural and photoluminescent properties of ZnO films deposited by radio frequency reactive sputtering

Cited by 9 publications

References 17 publications

Mesosynthesis of ZnO–SiO2porous nanocomposites with low-defect ZnO nanometric domains

Mesosynthesis of ZnO–SiO2porous nanocomposites with low-defect ZnO nanometric domains

High quality p-type ZnO film growth by a simple method and its properties

Tri-doped co-annealed zinc oxide semi-conductor synthesis and characterization: photodegradation of dyes and gas sensing applications

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Product

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Mesosynthesis of ZnO–SiO₂porous nanocomposites with low-defect ZnO nanometric domains

Mesosynthesis of ZnO–SiO₂porous nanocomposites with low-defect ZnO nanometric domains