Zinc Oxide Epitaxial Thin Film Deposited Over Carbon on Various Substrate by Pulsed Laser Deposition Technique

Manikandan, E.; Moodley, Mathew; Ray, Suprakas Sinha; Bk, Panigrahi; Krishnan, Rajagopalan; Padhy, N.; Kg, Nair; Ak, Tyagi

doi:10.1166/jnn.2010.2478

Cited by 66 publications

(33 citation statements)

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“…Several techniques are available for depositing ZnO coatings onto anodized aluminum oxide membranes, including pulsed laser deposition (PLD), 18 ion beam sputtering, 19 plasma chemical vapor deposition (CVD), 20 and spin coating 21 . ALD has previously been used to deposit nanometer-thick coatings of ZnO on polymer nanofibers with no alteration to the underlying nanofiber structure 22 .…”

Section: Discussionmentioning

confidence: 99%

Cytotoxicity of cultured macrophages exposed to antimicrobial zinc oxide (ZnO) coatings on nanoporous aluminum oxide membranes

et al. 2013

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Zinc oxide (ZnO) is a widely used commercial material that is finding use in wound healing applications due to its antimicrobial properties. Our study demonstrates a novel approach for coating ZnO with precise thickness control onto 20 nm and 100 nm pore diameter anodized aluminum oxide using atomic layer deposition (ALD). ZnO was deposited throughout the nanoporous structure of the anodized aluminum oxide membranes. An 8 nm-thick coating of ZnO, previously noted to have antimicrobial properties, was cytotoxic to cultured macrophages. After 48 h, ZnO-coated 20 nm and 100 nm pore anodized aluminum oxide significantly decreased cell viability by ≈65% and 54%, respectively, compared with cells grown on uncoated anodized aluminum oxide membranes and cells grown on tissue culture plates. Pore diameter (20–200 nm) did not influence cell viability.

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Section: Discussionmentioning

confidence: 99%

Cytotoxicity of cultured macrophages exposed to antimicrobial zinc oxide (ZnO) coatings on nanoporous aluminum oxide membranes

et al. 2013

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“…Detailed thin-film deposition and experimental methods can be found elsewhere [10]. The results obtained from Field-Emission measurement at GNS system [20].…”

Section: Methodsmentioning

confidence: 99%

Hybrid nanostructured thin-films by PLD for enhanced field emission performance for radiation micro-nano dosimetry applications

Manikandan

Kennedy

Kavitha

et al. 2015

Journal of Alloys and Compounds

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“…Through these mechanisms, ZnO acts as an excellent antibacterial agent [13]. ZnO materials have been synthesized through numerous methods, which include chemical precipitation, sol-gel, pulsed laser deposition technique, microwave radiation and hydrothermal methods [14]. The doping of ZnO materials with different types of metallic ions [11,15,16] enhances its optical, magnetic and conducting properties.…”

Section: Introductionmentioning

confidence: 99%

Capacitive properties of zinc oxide thin films by radiofrequency magnetron sputtering

Ondo-Ndong¹,

Essone-Obame²,

Moussambi³

et al. 2018

J Theor Appl Phys

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The study focused on the production of zinc oxide (ZnO) thin films as a dielectric material for use in metal-insulator-semiconductor capacitors. The objective of this study has demonstrated the frequency dependence of conductivity and capacity. Zinc oxide (ZnO) was thin films deposited by a silicon wavelength sputtering\magnetron cathode sputtering. The capacitive properties of ZnO zinc oxide were studied at room temperature. The frequency dependence of the conductivity, capacitance and the measured current-voltage (I-V) characteristics of ZnO zinc oxide thin films were studied in the frequency range from 5 kHz to 13 MHz. It is shown that the conductivity is total. Indeed, the measurement of the conductivity in alternating regime obeys the Arrhenius equation. In addition, the measured I-V characteristics of the structures studied at 10 kHz and 10 MHz clearly revealed areas of accumulation, depletion and inversion in the plots. It has been observed that AC conductivity and capacity in the ZnO thin films (ZnO) are frequency dependent. This dependence indicates that the conduction is thermally activated and maintains the correlated barrier of the charge carrier on the localized states as a function of the experimental data. The FBAR (expand) devices with the ZnO films exhibited a pronounced resonance peak centered at 537 MHz with a k 2 coupling coefficient of 7%. It found therefore that the impedance matching of the FBAR could be easily achieved simply by controlling the resonance the resonator.

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Zinc Oxide Epitaxial Thin Film Deposited Over Carbon on Various Substrate by Pulsed Laser Deposition Technique

Cited by 66 publications

References 0 publications

Cytotoxicity of cultured macrophages exposed to antimicrobial zinc oxide (ZnO) coatings on nanoporous aluminum oxide membranes

Cytotoxicity of cultured macrophages exposed to antimicrobial zinc oxide (ZnO) coatings on nanoporous aluminum oxide membranes

Hybrid nanostructured thin-films by PLD for enhanced field emission performance for radiation micro-nano dosimetry applications

Capacitive properties of zinc oxide thin films by radiofrequency magnetron sputtering

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