Papers by Keyword: Cadmium Oxide

Abstract: Thin films of CdO doped with AgNPs were deposited on ITO quartz substrates using DC sputtering protocol. The films were characterized using different techniques like XRD pattern for both undoped and doped one CdO NPs with silver nanoparticles, with various doping concentrations (0.4, 1.04, and 1.20) at%. It has been noticed from X-ray pattern that the nanostructured films possessed polycrystalline reflection patterns and the Prevailing orientation plane (111) on 2θ=33.35o in addition the reflection intensity increases with increasing of the doping concentration (1chip, 2chips and 3 chips) of Silver nanoparticles that chipped to the surface cadmium plate. Microstructures characterization of synthesized samples was studied using SEM. Images of SEM demonstrated that the particle size increases directly along with the number of implanting Silver NPs with three chips (1, 2 and 3) to the essential plate of Cd metal. EDXS spectroscopy counting the elemental composition using the atomic percentage, it has been demonstrated existence of silver in doped once. More, the percentage of silver content increase with increasing the number of Ag chips increases as follows The Ag content in the doped films of the cadmium metal plate with 1 attached is (1.39 wt. % for one Ag chip, 2.02 wt. % for two Ag chips while, the concentration has been increased further for three Ag chips to 3.24 at. %. Sensitivity of the manufactured device to Sevoflurane Anesthetic Gas Sensor indicates that the resistance decreases with the increase in the number of silver chips, and this is due to an increase of the pure charge carriers of the current. Keywords: Cadmium Oxide, Sliver, Structural Properties, DC reactive magnetron sputtering method, Sevoflurane Anesthetic Gas.

Abstract: The based semiconductor-metal oxide gas 3D-detector of cadmium oxide has been fabricated from cadmium chloride salt upon a glass substrate via the technique of spray pyrolysis with a thickness around (0.5 ± 0.01 μm) utilizing precursors in form of water soluble at a flat glass substrate and a tube hollow design. Three different dimensions were used at temperature 450oC±5, in 0.1 and 0.2 M concentration, and their gas sensing characteristics toward the (CO) and (NO) gases at various concentrations (50, 100, and 500 ppmv) in the air were studied at the room temperature which are related to oil industry. Different inspection distances (0, 1 and 5 m) were carried out. Furthermore, structural and morphology properties were inspected via X-Ray Diffraction (XRD), Scanning Electron Microscopy (SEM) and Atomic Force Microscopy (AFM). The results manifested that the composition of the formative oxide CdO is related to the tested oxidation gases sensitivity. And, the installation of hollow design is best from flat to capture the gas molecules.

Abstract: A glass system of composition 40P₂O₅-40ZnO-(20-x)Na₂O-xCdO (where, x = 1, 2, 3, 4, 5 and 6 mol%) was prepared using the conventional melt quenching technique. The glass formability of the prepared samples was inspected using XRD technique. Archimedes’ method was used to determine the density of the prepared glass samples then the molar volume was calculated. The optical spectroscopic investigations of the prepared glass samples were carried out over the spectral range (190-2500 nm). The proposed glass showed a successive transparency in both visible and near-IR ranges of spectrum till 2500 nm with considerably high transmission of about 78%. The refractive index of the glass samples with some other useful parameters such as dielectric constant, electric susceptibility and electronic polarizability of the prepared glass were evaluated. The results suggest the practicality of utilizing such new glass in the fabrication of optical supplies such as lenses and optical windows used for Nd:YAG lasers. The metallization criteria data of the prepared glass propose a good basis for predicting new nonlinear optical materials.

Abstract: The porous structure of copper-cadmium oxide system produced by electrochemical synthesis using alternating current in ammonium chloride solutions with concentrations of 3 and 25 wt% was studied. It was shown that the composition of electrolysis products is represented by oxides of copper (I) and (II), hydroxides of cadmium; it depends on the current density and the solution concentration. The products of joint electrochemical oxidation of copper and cadmium obtained in ammonium chloride solution with concentrations of 3 and 25 wt% and current densities of 1 and 3 A/cm² are characterized by mesoporous structure.

Abstract: The influence of cadmium oxide on the thermal decomposition behaviors of AP-CMDB propellants was studied by differential scanning calorimetry (DSC) and accelerating rate calorimetry (ARC). The test results show that the decomposition process of AP-CMDB can be divided into two stages. Cadmium oxide can increase the initial temperature, slow down the decomposition rate and improve the thermal safety of AP-CMDB.

Abstract: High purity Cadmium (Cd) metal was used as raw material and placed in a microwave susceptor. an evaporation/oxidation process occurs under exposure to microwave in less than 2 minutes. Then, Evaporated cadmium reacted with oxygen and cadmium oxide was collected on the inner surface of a glassy container that was placed a few centimeters above the susceptor. Morphological and structural information of As-synthesized CdO nanopowder, were investigated via SEM and X-ray diffraction (XRD) spectroscopy. The antibacterial activities of different concentration of the CdO nanoparticles were tested by treating Escherichia coli (Gram negative) cultures with CdO nanoparticles. The Study indicates that cadmium oxide nanoparticles show effective antibacterial activity toward the gram-negative bacterium E. coli. Electrochemical properties of as-synthesized powder were investigated via linear and two vertex cyclic voltammetery in the presence of ethanol, a pair of Oxidation/reduction peaks were achieved.

Abstract: The spin-resolved electronic energy bands and partial and total density of states of cadmium oxide doped with Sc, Ti and Cr have been evaluated by means of the ABINIT code. The strong electron correlations of Cd 4d and transition element 3d states have been taken into account. It was found that the CdScO and CdTiO crystals are paramagnetic and CdCrO shows the ferromagnetic ordering.

Abstract: Cadmium oxide (CdO) thin films were deposited on quartz glass substrates by pulsed laser deposition from ablating Cd metallic targets. The effect of grain size on structural and optical properties of CdO thin films was studied in detail. The structural properties were determined by XRD and a cubic phase was present in all of the as-grown samples. The morphology of CdO films has been investigated by atomic force microscopy. Grain sizes between 156 and 300 nm were determined from the AFM images and increased with laser energy density. The optical properties were studied measuring the transmittance spectra. The room-temperature bandgap energies for each sample were determined from the transmittance by extrapolating absorption coefficient. The bandgap energy varies from 2.31 to 2.55 eV following closely the quantum confinement dependence of energy against crystallite radius. This shows that the absorption edges of these samples are determined primarily by the grain sizes.

Abstract: Cadmium oxide (CdO) quantum dots were synthesized in the laboratory by quenching method using CdO powder sintered at 9000C and ethyl alcohol kept at ice cold temperature. X-ray diffraction investigations reveal the NaCl cubic structure of CdO quantum dots. Addition of ethylenediamine to a portion of reaction mixture containing quantum dots results in the conversion of nanoparticles to nanorods. Heavy ion irradiation using 90 MeV Carbon (C+6) ion beam accelerated at 15 UD Pelletron, with fluence varying from 1011 to 1013 ions/cm2 , produced enlargement in the size of quantum dots revealed by TEM investigations. Heavy ion irradiation effects need to be investigated further, in view of industrial applications of quantum dots.