54 results on '"Abeer S. Altowyan"'
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2. Distinct Optical and Structural (Nanoyarn and Nanomat-like Structure) Characteristics of Zinc Oxide Nanofilm Derived by Using Salvia officinalis Leaves Extract Made without and with PEO Polymer
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Almessiere, Adnan H. Alrajhi, Naser M. Ahmed, Mohd Mahadi Halim, Abeer S. Altowyan, Mohamad Nurul Azmi, and Munirah A.
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ZnO NPs ,ZnO NRs ,Salvia officinalis ,PEO ,structures ,optical properties - Abstract
This paper reports the optical properties of zinc oxide nanofilm fabricated by using organic natural products from Salvia officinalis leaves (SOL) extract and discusses the effect of the nanocrystal (NC) structure (nanoyarn and nanomat-like structure) on nanofilm optical properties. The surface-active layer of the nanofilm of ZnO nanoparticles (ZnO NPs) was passivated with natural organic SOL leaves hydrothermally, then accumulated on zinc oxide nanorods (ZnO NRs). The nanofilms were fabricated (with and without PEO) on glass substrate (at 85 °C for 16 h) via chemical solution deposition (CSD). The samples were characterized by UV-vis, PL, FESEM, XRD, and TEM measurements. TEM micrographs confirmed the nucleation of ZnO NPs around 4 nm and the size distribution at 1.2 nm of ZnO QDs as an influence of the quantum confinement effect (QCE). The nanofilms fabricated with SOL surfactant (which works as a capping agent for ZnO NPs) represent distinct optoelectronic properties when compared to bulk ZnO. FESEM images of the nanofilms revealed nanoyarn and nanomat-like structures resembling morphologies. The XRD patterns of the samples exhibited the existence of ZnO nanocrystallites (ZnO NCs) with (100), (002), and (101) growth planes. The nanofilms fabricated represented a distinct optical property through absorption and broad emission, as the optical energy band gap reduced as the nanofilms annealed (at 120℃). Based on the obtained results, it was established that phytochemicals extracted from organic natural SOL leaves have a distinct influence on zoic oxide nanofilm fabrication, which may be useful for visible light spectrum trapping. The nanofilms can be used in photovoltaic solar cell applications.
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- 2023
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3. Thermoluminescence kinetic parameters of beta irradiated the zinc gallate phosphor using different methods
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Abeer S. Altowyan, M. Sonsuz, Ümit H. Kaynar, Jabir Hakami, M. Ayvacikli, M. Topaksu, and N. Can
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Process Chemistry and Technology ,Materials Chemistry ,Ceramics and Composites ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials - Published
- 2023
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4. Effect of doping on dielectric and optical properties of barium hexaferrite: Photocatalytic performance under solar light irradiation
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Ismat Bibi, Yassine Slimani, Munawar Iqbal, Abeer S. Altowyan, Norah Alwadai, Fwzah H. Alshammari, Muhammad Muneer, Aljawhara H. Almuqrin, and Amani Saleh Almuslem
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Materials science ,Dopant ,Process Chemistry and Technology ,Nanoparticle ,Infrared spectroscopy ,Dielectric ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Chemical engineering ,Materials Chemistry ,Ceramics and Composites ,Photocatalysis ,Dielectric loss ,Crystallite ,Irradiation - Abstract
A series of Co-doped and Cr-doped Ba1-xCoxFe12-yCryO19 nanoparticles (NPs) were synthesized via the microemulsion route. The effects of Co and Cr substitution on the structural, dielectric, optical, and photocatalytic properties of the NPs were investigated. The Ba1-xCoxFe12-yCryO19 NPs were characterized using Fourier-transform infrared spectroscopy, X-ray diffraction analysis, scanning electron microscopy, Raman scattering, and dielectric measurements. The Ba1-xCoxFe12-yCryO19 NPs were obtained in a single phase with an average crystallite size of 18 nm. The dielectric constant of the NPs decreased, while the dielectric loss and tangent loss increased with increasing dopant (Co and Cr) contents. The photocatalytic activities (PCAs) of the Ba1-xCoxFe12-yCryO19 and BaFe12O19 NPs were appraised by carrying out the degradation of CV (crystal violet) dye under solar light irradiation. The doping improved the PCA of BaFe12O19, and up to 64.23% of the CV dye could be degraded within 60 min under visible light irradiation. The Ba1-xCoxFe12-yCryO19 NPs showed great potential for application as an economic photocatalyst as they required solar light irradiation for the degradation of CV.
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- 2021
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5. Influence of incorporation of samarium (Sm3+) on the structural and optoelectronic properties of In2S3 thin film for photodetector applications
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Mohd. Shkir, Abeer S. Altowyan, F. Maiz, and Jabir Hakami
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General Chemical Engineering ,General Physics and Astronomy ,General Chemistry - Published
- 2023
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6. A highly sensitive rare earth erbium doped In2S3 thin films for photodetection applications
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Abeer S. Altowyan, Jabir Hakami, H. Algarni, and Mohd. Shkir
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Inorganic Chemistry ,Materials Chemistry ,Physical and Theoretical Chemistry - Published
- 2023
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7. The Impact of Co Doping and Annealing Temperature on the Electrochemical Performance and Structural Characteristics of SnO2 Nanoparticulate Photoanodes
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Abeer S. Altowyan, Mohamed Shaban, Khaled Abdelkarem, and Adel M. El Sayed
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water splitting ,spin-coated SnO2 films ,catalysis ,hydrogen generation ,General Materials Science - Abstract
Obtaining H2 energy from H2O using the most abundant solar radiation is an outstanding approach to zero pollution. This work focuses on studying the effect of Co doping and calcination on the structure, morphology, and optical properties of spin-coated SnO2 films as well as their photoelectrochemical (PEC) efficiency. The structures and morphologies of the films were investigated by XRD, AFM, and Raman spectra. The results confirmed the preparation of SnO2 of the rutile phase, with crystallite sizes in the range of 18.4–29.2 nm. AFM showed the granular structure and smooth surfaces having limited roughness. UV-Vis spectroscopy showed that the absorption spectra depend on the calcination temperature and the Co content, and the films have optical bandgap (Eg) in the range of 3.67–3.93 eV. The prepared samples were applied for the PEC hydrogen generation after optimizing the sample doping ratio, using electrolyte (HCl, Na2SO4, NaOH), electrode reusability, applied temperature, and monochromatic illumination. Additionally, the electrode stability, thermodynamic parameters, conversion efficiency, number of hydrogen moles, and PEC impedance were evaluated and discussed, while the SnO2 films were used as working electrodes and platinum sheet as an auxiliary or counter electrode (2-electrode system) and both were dipped in the electrolyte. The highest photocurrent (21.25 mA/cm2), number of hydrogen moles (20.4 mmol/h.cm2), incident photon-to-current change efficiency (6.892%@307 nm and +1 V), and the absorbed photon-to-current conversion efficiency (4.61% at ~500 nm and +1 V) were recorded for the 2.5% Co-doped SnO2 photoanode that annealed at 673 K.
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- 2022
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8. The Influence of Electrode Thickness on the Structure and Water Splitting Performance of Iridium Oxide Nanostructured Films
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Abeer S. Altowyan, Mohamed Shaban, Khaled Abdelkarem, and Adel M. El Sayed
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General Chemical Engineering ,General Materials Science ,IrOx films ,nanorod morphology ,water splitting ,solar-to-hydrogen conversion - Abstract
For a safe environment, humanity should be oriented towards renewable energy technology. Water splitting (WS), utilizing a photoelectrode with suitable thickness, morphology, and conductivity, is essential for efficient hydrogen production. In this report, iridium oxide (IrOx) films of high conductivity were spin-cast on glass substrates. FE-SEM showed that the films are of nanorod morphology and different thicknesses. UV-Vis spectra indicated that the absorption and reflectance of the films depend on their thickness. The optical band gap (Eg) was increased from 2.925 eV to 3.07 eV by varying the spin speed (SS) of the substrates in a range of 1.5 × 103–4.5 × 103 rpm. It was clear from the micro-Raman spectra that the films were amorphous. The Eg vibrational mode of Ir–O stretching was red-shifted from 563 cm−1 (for the rutile IrO2 single crystal) to 553 cm−1. The IrOx films were used to develop photoelectrochemical (PEC) hydrogen production catalysts in 0.5M of sodium sulfite heptahydrate Na2SO3·7H2O (2-electrode system), which exhibits higher hydrogen evaluation (HE) reaction activity, which is proportional to the thickness and absorbance of the used IrOx photocathode, as it showed an incident photon-to-current efficiency (IPCE%) of 7.069% at 390 nm and −1 V. Photocurrent density (Jph = 2.38 mA/cm2 at −1 V vs. platinum) and PEC hydrogen generation rate (83.68 mmol/ h cm2 at 1 V) are the best characteristics of the best electrode (the thickest and most absorbent IrOx photocathode). At −1 V and 500 nm, the absorbed photon-to-current conversion efficiency (APCE%) was 7.84%. Electrode stability, thermodynamic factors, solar-to-hydrogen conversion efficiency (STH), and electrochemical impedance spectroscopies (EISs) were also studied.
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- 2022
9. Influence of Radiative and Non-Radiative Recombination Lifetimes and Feedback Strength on the States and Relative Intensity Noise of Laser Diode
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Salah Abdulrhmann, Abeer S. Altowyan, and Jabir Hakami
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Radiology, Nuclear Medicine and imaging ,semiconductor lasers ,radiative and non-radiative recombination ,optical feedback ,intensity noise ,chaos ,bifurcation diagram ,Instrumentation ,Atomic and Molecular Physics, and Optics - Abstract
A systematic treatment of the influence of the optical feedback (OFB) and the ratio of the radiative and the non-radiative recombination lifetime (τr/τnr) on the relative intensity noise (RIN) and the system dynamics of a semiconductor laser (SL) is presented. We found that the ratio τr/τnr causes a significant change in the intensity of noise, states, and route to chaos of such a system. Laser transit from a continuous wave (CW) to a periodic oscillation (PO) becomes faster in terms of the OFB strength by increasing the ratio τr/τnr. The route to chaos was identified in three distinct operating regions, namely, PO, period doubling (PD), and sub-harmonics (SH), which are dependent on the ratio τr/τnr, and injection current. In the route to chaos regime, the ratio τr/τnr triggers a slight shift in the frequency with reference to the frequency of the solitary laser. At upmost levels of the current, the highest value of the ratio τr/τnr stabilizes the laser and stimulates it to operate in CW or PO. In the strong OFB region, when the ratio τr/τnr increases, the chaotic operation changed to CW or PO operation and RIN is suppressed close to the quantum noise level.
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- 2022
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10. The Impact of Co Doping and Annealing Temperature on the Electrochemical Performance and Structural Characteristics of SnO
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Abeer S, Altowyan, Mohamed, Shaban, Khaled, Abdelkarem, and Adel M, El Sayed
- Abstract
Obtaining H
- Published
- 2022
11. Advanced interpretation of hydrogen absorption process in LaMgNi3.6M0.4 (M = Ni, Mn, Al, Co, Cu) alloys using statistical physics treatment
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Abdelmottaleb Ben Lamine, Yosra Ben Torkia, Fatma Aouaini, Abeer S. Altowyan, and Nadia Bouaziz
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Materials science ,Hydrogen ,Renewable Energy, Sustainability and the Environment ,Energy Engineering and Power Technology ,chemistry.chemical_element ,02 engineering and technology ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,0104 chemical sciences ,Interpretation (model theory) ,Hydrogen storage ,Fuel Technology ,chemistry ,Interstitial defect ,Statistical physics ,Hydrogen absorption ,Absorption (chemistry) ,0210 nano-technology - Abstract
To obtain good economic and environmental benefits, LaMgNi3.6M0.4 (M = Al, Mn, Ni, Co, Cu) alloys are investigated for the hydrogen storage. The absorption data of hydrogen in the tested alloys are measured experimentally at 373 K. The hydrogen absorption isotherms are analyzed using three models derived from statistical physics formalism. The adequate model permits to discover significant details about the absorption phenomenon via determining the density of the interstitial sites (Dm), the number of hydrogen atoms per site (n) and the energetic parameter ΔE. The results indicate that multi-atomic (n > 1) and multi-linking (n
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- 2021
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12. Photovoltaic Performance of Thin-Film CdTe for Solar Cell Applications
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Khalid Mustafa Osman Ortashi, Amel Laref, Nawaf A. Alsaif, Hanan Ali Al-shehri, Aljawhara H. Almuqrin, Manal A. Awad, M. Almoneef, F. Alkallas, Meznah M. Alanazi, R. Alkhraif, Abeer S. Altowyan, and Awatif A. Hendi
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Fluid Flow and Transfer Processes ,Materials science ,Nanofluid ,business.industry ,law ,Mechanical Engineering ,Photovoltaic system ,Solar cell ,Optoelectronics ,Thin film ,business ,Cadmium telluride photovoltaics ,law.invention - Abstract
In the current investigation, we report a theoretical study to acquire the highest feasible efficiency of cadmium telluride (CdTe) thin-films. It is well recognized that CdTe crystallizes in cubic zinc-blende structure and its direct band gap of 1.5 eV turned it out as a potential candidate for photovoltaic (PV) applications. Our calculations are founded on Shockley-Queisser (SQ) limit to simulate the open-circuit voltage, current density, and filling factor versus the variation of photon energy up to 4.0 eV. These key parameters of SQ change with the variation of energy between 0.3 to 3.5 eV. This is owing to the strong optical absorption (> 104 cm−1) and direct band gap of 1.5 eV, which make CdTe thin-film suitable for single junction solar cell and ideal for PV applications. It is observed that the optical absorption enhances as the thickness of the absorbed layer increases. This will effectively provide a theoretical support to the industry of global solar energy that is anticipated to be sustainable in the future.
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- 2021
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13. Green synthesis of gold nanoparticles in Gum Arabic using pulsed laser ablation for CT imaging
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Elham Mzwd, Naser M. Ahmed, Nursakinah Suradi, Saleh K. Alsaee, Abeer S. Altowyan, Munirah A. Almessiere, and Ahmad Fairuz Omar
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Gum Arabic ,Multidisciplinary ,Contrast Media ,Metal Nanoparticles ,Gold ,Laser Therapy ,Tomography, X-Ray Computed - Abstract
Laser ablation synthesis in liquid solution (PLAL) is a green technique that allows for the physical formation of nanomaterials. This study indicates the preparation of stable gold nanoparticles (AuNPs) in Gum Arabic (GA) solution via laser ablation as a CT contrast agent. The optical properties were achieved using the absorption spectroscopic technique whereas the morphology and size distribution were investigated by TEM and ImageJ software. TEM image shows greater stability and spherical shape of GA-AuNPs with smaller size at 1.85 ± 0.99 nm compared to AuNPs without GA. The absorption spectrum of pure AuNPs has a lower absorption peak height in the visible range at λ = 521 nm, while the spectrum of GA-AuNPs has a higher plasmon peak height at λ = 514 nm with a blue shift towards lower wavelengths. The concentration of GA that dissolved in 10 mL of DI water via laser ablation is set at 20 mg. Increasing the number of pulses has only a minor effect on particle size distribution, which remains tiny in the nanometer range (less than 3 nm). For energies greater than 200 mJ, there is a blue shift toward shorter wavelengths. As the concentration of GA-AuNPs increases, the CT number is also increased indicating good image contrast. It can be concluded that there is a positive and significant influence of GA as a reducing agent for AuNPs, and a contrast agent for CT imaging which highlights its superiority in future medical applications.
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- 2022
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14. Quantum Coherence and Total Phase in Semiconductor Microcavities for Multi-Photon Excitation
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Abeer S. Altowyan, Kamal Berrada, Sayed Abdel-Khalek, and Hichem Eleuch
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General Chemical Engineering ,semiconductors ,four-photon excitation ,microcavities ,quantum coherence ,fidelity ,total phase ,General Materials Science - Abstract
We examine how the weak excitation regime of a quantum well confined in a semiconductor microcavity (SM) influences the dynamics of quantum coherence and the total phase. We analyze the impact of the physical parameters on different quantumness measures, and illustrate their numerical results. We show that the amount of the coherence and total phase in the SMs for multi-photon excitation can be improved and controlled by the strength of the field, exciton-photon coupling, cavity dissipation rate, and excitonic spontaneous emission rate. We illustrate how the fidelity varies depending on the physical parameters. These results might have far-reaching ramifications not just in quantum information processing and optics, but also in physics at large.
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- 2022
15. A closer look at the impacts of MnO2 on the optical, mechanical, and radiation shielding properties of the B2O3–BaF2–Li2O glass system of 40B2O3 + (40-x) BaF2 + 5MgO + 15Li2O + xMnO2
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Abeer S. Altowyan, A. S. Abouhaswa, M. I. Sayyed, and K. A. Mahmoud
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General Materials Science ,General Chemistry - Published
- 2022
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16. Monte Carlo Modelling of Magnetic and Thermodynamic Features of Rb3CoCl5 and Dy3Al5O12 Magnetic Systems
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Abeer S. Altowyan, A. Bamuqaddam, Shatha A. Aldaghfag, F. Alkallas, Amel Laref, Awatif A. Hendi, Khalid Mustafa Osman Ortashi, Meznah M. Alanazi, Manal A. Awad, M. Almoneef, Norah A.M. Alsaif, and Jamila S. Alzahrani
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Physics ,010401 analytical chemistry ,Monte Carlo method ,Statistical physics ,Electrical and Electronic Engineering ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,0104 chemical sciences - Abstract
In our simulations, we considered two typical magnetic materials, while the first one includes the 3d-transition metal, such as cobalt which is responsible of the presence of magnetism in pyrochlore structure Rb3CoCl5. The second magnetic material was chosen to have 4f-rare earth metal, namely dysprosium that can induce magnetism in garnet material Dy3Al5O12. A general agreement was found between our results and the previous works. In our calculations, we employed the classical Ising model for the above mentioned realistic materials. We specifically studied the magnetic properties over a range of temperature including the critical temperature and above it. To understand the magnetic phase transition, the effect of magnetic field was involved in the classical Ising model.
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- 2020
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17. Emission Spectrum and Fidelity of an Atomic System Coupled to Fields with Level Energy Differences
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Kamal Berrada, Sayed Abdel-Khalek, Abeer S. Altowyan, and Shatha A. Aldaghfag
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Physics ,media_common.quotation_subject ,Spectrum (functional analysis) ,Time evolution ,Physical system ,Fidelity ,Harmonic (mathematics) ,02 engineering and technology ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Computational physics ,010309 optics ,020210 optoelectronics & photonics ,0103 physical sciences ,0202 electrical engineering, electronic engineering, information engineering ,Exponent ,Emission spectrum ,Engineering (miscellaneous) ,Quantum ,media_common - Abstract
We study the emission spectrum and quantum-state fidelity for an atomic system interacting with radiation fields of quantum systems described by power-law potentials. We consider a set of manifold fields that are characterizable by their level-energy differences. They include triangular, infinite, and harmonic potentials as special cases. We present the time evolution of the spectrum and fidelity for this class of potentials with respect to model parameters of the physical system. The results indicate that the spectrum and fidelity during the dynamics are highly sensitive to the value of the photon-transition number and exponent parameter.
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- 2020
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18. Emission Spectrum and Nonclassical Properties of an Atom–Field System Under an Intensity-Dependent Field
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Sayed Abdel-Khalek, Shatha A. Aldaghfag, Abeer S. Altowyan, and Kamal Berrada
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Physics ,Field (physics) ,Time evolution ,02 engineering and technology ,Optical field ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,010309 optics ,020210 optoelectronics & photonics ,0103 physical sciences ,Atom ,0202 electrical engineering, electronic engineering, information engineering ,Coherent states ,Optical radiation ,Emission spectrum ,Atomic physics ,Spectroscopy ,Engineering (miscellaneous) - Abstract
In this paper, we investigate the emission spectrum of a two-level atomic system interacting with an optical radiation field based on photon-added coherent states of a pseudo-harmonic oscillator (PACSPHO). Also, the purity of the optical field initially prepared in the PACS-PHO is studied through the evolution of the field entropy. We examine the influence of the intensity-dependent field and the photon-transition number on the dynamic behavior of the emission spectrum and field purity. We explore the link between the field purity and the emission spectrum during the time evolution. Finally, we show how the emission spectrum is affected and changed according to the main physical parameters. We find that there is some kind of correlation between the emission spectrum and the field purity, which will be useful in different applications of quantum physics and spectroscopy.
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- 2020
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19. Fabrication of TiO
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Mohamed, Zayed, Salsbeel, Samy, Mohamed, Shaban, Abeer S, Altowyan, Hany, Hamdy, and Ashour M, Ahmed
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A p-n nanocomposite based on TiO
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- 2022
20. Multiple Phase Stepping Generation in Alkali Metal Atoms: A Comparative Theoretical Study
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Abu Mohamed Alhasan, Abeer S. Altowyan, A. Y. Madkhli, and Salah Abdulrhmann
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Fluid Flow and Transfer Processes ,Process Chemistry and Technology ,alkali-metal vapours ,hyperfine structure ,finite train propagation ,phase-sensitive methods ,uncertainty product ,reduced Maxwell equations ,density matrix equations ,General Engineering ,General Materials Science ,Instrumentation ,Computer Science Applications - Abstract
We theoretically demonstrated optical phase switches in light storage-like experiments. Typical light storage (LS) and retrieval experiments consist of the probe field in the probe channel with writing and reading fields across the drive branch, as well as its recovery. The probe and first drive pulses as the standard electromagnetically induced transparency (EIT) effect of storing light are used in the proposed scheme for the atomic excitations. A train of probe pulses is used after a short storage period to induce Raman gain in the drive channel. The proposed scheme was applied to alkali-metal atoms such as 23Na, 87Rb, and 39K vapours. Spatiotemporal phase variations for generated drive pulses were found to shape in the form of discrete phase distributions. The proposed approach in the process of obtaining phase discrete distributions for different irradiation intensities was tested. For weak fields, the discrete distributions were distinct as a result of the differences in the upper hyperfine structure (hf) and the atomic relaxations. However, for moderate fields, the discrete phase distributions are smeared by the atomic relaxations.
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- 2023
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21. Influence of Sm/Bi substitution on synthesis, structural, and photon interaction properties of TeO MoO3 BaO Sm2O3 Bi2O3 glass system
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Jamila S. Alzahrani, Alaa Hammoud, Abeer S. Altowyan, I.O. Olarinoye, Andrei V. Lebedev, and M.S. Al-Buriahi
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Electrical and Electronic Engineering ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials - Published
- 2023
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22. Radiation shielding ability and optical features of La2O3+TiO2+Nb2O5+WO3+X2O3 (X=B, Ga, and In) glass system containing high-entropy oxides
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Jamila S. Alzahrani, Z.A. Alrowaili, Canel Eke, Abeer S. Altowyan, I.O. Olarinoye, and M.S. Al-Buriahi
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Multidisciplinary - Published
- 2023
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23. Layer-by-Layer Extracellular Biological Synthesis of Sustainable Ag-Based Nanoparticles for Catalytic Reduction of Methylene Blue Dye
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Mohamed G. M. Kordy, Inas A. Ahmed, Mohammed Abdel-Gabbar, Hanan A. Soliman, Abeer S. Altowyan, and Mohamed Shaban
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Inorganic Chemistry ,General Chemical Engineering ,General Materials Science ,AgNO3 ,Ag ,biosynthesis ,Bacillus cereus ,Ag-based nanoparticles ,face-centered cubic ,sustainable development goals ,biological waste ,cubic microstructures ,Condensed Matter Physics - Abstract
Novel cubic microstructures for the purposes of plasmonic Ag-based NPs were made using biological wastes produced from a microbial culture of Bacillus cereus (B. cereus) employing a bottom-up approach for the biosynthesis of metal-based nanomaterials. The unique surface plasmon resonance (SPR) of the as-prepared Ag-based NPs was detected at 405 nm. The infra-red spectrum revealed that the used biological waste effectively stabilized our Ag-based NPs. Scanning and transmission electron microscopes were used in order to evaluate the sizes and shapes of the distinctive structures present in our samples. The Ag NPs had a face-centered cubic structure, with a size of 64.4 nm for the (200) nano-crystallites, according to the X-ray diffraction that was conducted. The zeta potential was found to be −19.5 mV and the dynamic light scattering (DLS) size was 238.8 nm. Methylene blue’s (MB) reaction with NaBH4 was used in order to measure the catalytic activity of the generated Ag-based NPs over a period of 1 to 5 min. With an astonishing reaction rate of 0.2861 min−1, the MB elimination percentage reached 67% in just 5 min, displaying outstanding catalytic activity. This work can therefore encourage the use of this biowaste for the ecologically benign, cost-effective, and long-term synthesis of innovative Ag-based nanoparticles and nanostructures, as well as in their use as catalysts in the catalytic reduction in MB.
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- 2022
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24. Influence of V2O5 on the optical properties and radiation shielding performance of borate glass system containing Li2O and ZnO
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Abeer S. Altowyan, Z.A. Alrowaili, Norah Alwadai, Canel Eke, I.O. Olarinoye, and M.S. Al-Buriahi
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Electrical and Electronic Engineering ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials - Published
- 2022
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25. Synthesis, XRD, UV-Vis spectra and photoluminescent properties of TeO2-based glasses doped with Yb3+ and Bi3+
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Abeer S. Altowyan, Alaa Hammoud, S. Al-Qaisi, Norah Alwadai, Andrei V. Lebedev, Valeriy A. Klimenko, Lada V. Vasileva, and M.S. Al-Buriahi
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Electrical and Electronic Engineering ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials - Published
- 2022
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26. Synthesis and properties of novel Pb/La/WO4: Eu3+ red phosphors for white light emitting diodes (WLEDs)
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Abeer S. Altowyan, Alaa Hammoud, Andrei V. Lebedev, Samvel A. Avanesov, Lada V. Vasileva, Valeriy A. Klimenko, and M.S. Al-Buriahi
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Electrical and Electronic Engineering ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials - Published
- 2022
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27. Optical investigations and photoactive solar energy applications of new synthesized Schiff base liquid crystal derivatives
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Tariq Z. Abolibda, Abeer S. Altowyan, Hoda A. Ahmed, Fowzia S. Alamro, Mohamed Shaban, and Sobhi M. Gomha
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Materials science ,Band gap ,Science ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,Article ,chemistry.chemical_compound ,Meta ,Liquid crystal ,Optical materials and structures ,Moiety ,Optical techniques ,Author Correction ,Multidisciplinary ,Schiff base ,Mesophase ,Nuclear magnetic resonance spectroscopy ,021001 nanoscience & nanotechnology ,0104 chemical sciences ,Crystallography ,chemistry ,Alkoxy group ,Medicine ,0210 nano-technology - Abstract
New homologues series of liquid crystalline materials namely, (E)-3-methoxy-4-[(p-tolylimino)methyl]phenyl 4-alkloxybenzoates (I-n), were designed and evaluated for their mesomorphic and optical behavior. The prepared series constitutes three members that differ from each other by the terminally attached alkoxy chain group, these vary between 6 and 12 carbons. A laterally OCH3 group is incorporated into the central benzene ring in meta position with respect to the ester moiety. Mesomorphic characterizations of the prepared derivatives are conducted using differential scanning-calorimetry (DSC), polarized optical-microscopy (POM). Molecular structures were elucidated by elemental analyses and NMR spectroscopy. DSC and POM investigations revealed that all the synthesized derivatives are purely nematogenic exhibiting only nematic (N) mesophase, except for the longest chain derivative (I-12) that is dimorphic possesses smectic A and N phases. Moreover, all members of the group have a wide mesomorphic range with high thermal nematic stability. A comparative study was established between the present derivative (I-6) and their previously prepared isomer. The results indicated that the location exchange of the polar compact group (CH3) influences the N mesophase stability and range. The electrical measurements revealed that all synthesized series I-n show Ohmic behaviors with effective electric resistances in the GΩ range. Under white light illumination, the effective electric conductivity for the compound I-8 is five times that obtained in dark conditions. This derivative also showed two direct optical band gaps in the UV and visible light range. In addition, I-6 has band energy gaps of values 1.07 and 2.79 eV, which are suitable for solar energy applications.
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- 2021
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28. High-Performance pH Sensor Electrodes Based on a Hexagonal Pt Nanoparticle Array-Coated Nanoporous Alumina Membrane
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Abeer S. Altowyan, Mohamed Shaban, Asmaa Gamel, Ahmed Gamal, Mona Ali, and Mohamed Rabia
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General Materials Science ,pH sensor ,porous anodic alumina membrane ,Pt nanoparticles ,Nernstian slope - Abstract
Porous anodic alumina membranes coated with Pt nanoparticles (PAAM/Pt) have been employed as pH sensor electrodes for H+ ion detection. The PAAM was designed using a two-step anodization process. Pt nanoparticles were then sputtered onto the membrane at different deposition times. The membrane’s morphological, chemical, and optical characteristics were carefully assessed following the fabrication stage using a variety of analytical techniques. The potential of the PAAM/Pt sensor electrode was investigated by measuring the potential using a simple potentiometric method. The effects of depositing Pt nanoparticles for 3–7 min on sensor electrode sensitivity were examined. The optimal potentiometric Nernstian response slope for the PAAM/Pt sensor electrode with 5 min Pt sputter coating is 56.31 mV/decade in the pH range of 3.0 to 10 at 293 K. Additionally, the PAAM/Pt sensor electrode’s stability and selectivity in various ions solutions were examined. The sensor electrode had a lifetime of more than six weeks and was kept in a normal air environment.
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- 2022
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29. Removal of methylene blue dye from aqueous solution using carbon nanotubes decorated by nickel oxide nanoparticles via pulsed laser ablation method
- Author
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Abeer S. Altowyan, Arafat Toghan, Hoda A. Ahmed, Rami Adel Pashameah, Eman A. Mwafy, Salhah H. Alrefaee, and Ayman M. Mostafa
- Subjects
Radiation - Published
- 2022
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30. Influence of the laser wavelength on the self-absorption of Cu and Ni spectral lines by using LIBS technique
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Abeer S. Altowyan, A. El-Hussein, Hoda A. Ahmed, Hana Hassan Faqih, Ahmed S. Amein, Ayman M. Mostafa, and Mohamed M. ElFaham
- Subjects
Inorganic Chemistry ,Organic Chemistry ,Electrical and Electronic Engineering ,Physical and Theoretical Chemistry ,Atomic and Molecular Physics, and Optics ,Spectroscopy ,Electronic, Optical and Magnetic Materials - Published
- 2022
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31. IMPROVEMENT IN STRUCTURAL, OPTICAL AND ELECTRICAL PROPERTIES OF ITO FILM THROUGH AlN AND HfO2 BUFFER LAYERS
- Author
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Mahir Faris Abdullah, Abeer S. Altowyan, Naser M. Ahmed, Naveed Afzal, Noor Humam Sulaiman, Mohsin Rafique, and Asmaa Soheil Najm
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Materials science ,business.industry ,Materials Chemistry ,Optoelectronics ,Surfaces and Interfaces ,Substrate (electronics) ,Thin film ,Sputter deposition ,Condensed Matter Physics ,business ,Buffer (optical fiber) ,Surfaces, Coatings and Films ,Indium tin oxide - Abstract
Indium Tin Oxide (ITO) films were deposited on glass substrate using radiofrequency (RF) magnetron sputtering technique. To improve the physical characteristics of the ITO film, AlN and HfO2 buffer layers were deposited on glass prior to the film deposition. The ITO/glass, ITO/AlN/glass and ITO/HfO2/glass films were annealed using CO2 laser and electrical oven heating methods. The crystallinity of the ITO film was improved due to the incorporation of AlN and HfO2 buffer layers and also by the post-deposition annealing process. The optical transmittance of the ITO was also increased due to the presence of the buffer layers. Similarly, the annealed ITO films grown on buffer layers exhibited lower values of the sheet resistance as compared to the film deposited without buffer layers. The laser annealing technique was more found to be more effective in reducing the ITO sheet resistance.
- Published
- 2021
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32. Complementary Study Based on DFT of Optical and Electronic Properties of New Copolymer PVK-F8T2
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Yasmine Ben Salah, Kamel Alimi, M. Mbarek, and Abeer S. Altowyan
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energy transfer ,Photoluminescence ,Materials science ,Polymers and Plastics ,Band gap ,Organic chemistry ,General Chemistry ,Molecular physics ,Article ,QD241-441 ,OLED ,Excited state ,optical transient ,Molecular orbital ,Density functional theory ,Ionization energy ,HOMO/LUMO ,optoelectronic - Abstract
This article is mainly a complementary study of a novel part of π-conjugated copolymers based on the poly (N-vinylcarbazole) (PVK) and poly (9,9-dioctylfluorene-co-bithiophene) (F8T2) unit based on the Density Functional Theory (DFT) and Time-Dependent Density Functional Theory (TD-DFT). This study is carried out to explore the structural and optoelectronic characteristics of a new organic material named PVK-F8T2. First, the structural, optical (absorption, photoluminescence, optical transition), electronic (molecular orbital (MO), energy-level diagram) and vibratory parameters of infrared (IR) were computed and compared with experimental studies. In addition, we calculated the level energy of the excited states and their corresponding transitions. Obviously, electronic parameters such as highest occupied and lowest unoccupied molecular orbital (HOMO and LUMO), ionization potential (IP), electronic affinity (EA) and the energy band gap (Eg) were computed in order to elucidate the intramolecular charge transport and to establish the energetic diagrams of the PVK-F8T2 copolymer for different states. The results obtained looked with precision at future optoelectronic applications. From these results, we have shown that the PVK-F8T2 has significant optoelectronic properties and seems usable as an active layer in organic light-emitting diodes (OLEDs).
- Published
- 2021
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33. Optical and Thermal Investigations of New Schiff Base/Ester Systems in Pure and Mixed States
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Hoda A. Ahmed, Sobhi M. Gomha, Abeer S. Altowyan, and Ayman M. Mostafa
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optical properties ,Thermogravimetric analysis ,Materials science ,nematic stability ,Polymers and Plastics ,Lateral methoxy ,Mesophase ,Organic chemistry ,General Chemistry ,Article ,schiff base/ester ,Homologous series ,chemistry.chemical_compound ,Crystallography ,Differential scanning calorimetry ,QD241-441 ,chemistry ,Liquid crystal ,Phase (matter) ,binary phase diagram ,Alkoxy group ,Moiety - Abstract
New mesomorphic series, 4-hexadecyloxy phenyl-imino-4′-(3-methoxyphenyl)-4″-alkoxybenzoates (An), were prepared and investigated with different thermal and mesomorphic techniques. The synthesized homologous series constitutes four members that differ from each other in the terminal length of flexible chain (n) attached to phenyl ester moiety, which varies between n = 6, 8, 10, and 12 carbons. A lateral CH3O group is attached to the central benzene ring in the meta position with respect to the ester moiety. Molecular structures of all newly prepared homologues were elucidated via FT-IR, 1H and 13C NMR spectroscopy. Mesomorphic and thermal properties were examined by differential scanning calorimetry (DSC), thermogravimetric analysis (TGA) and the mesophases identified by polarized optical microscopy (POM). DSC and POM examinations revealed that all members of the present series (An) exhibit a purely enantiotropic nematic (N) phase. Comparative evaluations and binary phase diagrams were established between the present homologues and their corresponding shorter one (Bn). The examination revealed that, the length of the flexible alkoxy chain incorporated into the phenylimino moiety is highly effective on the temperature range and stability of the mesophase observed. With respect to the binary mixtures An/Bn, the exhibited N phase showed to cover the whole composition range with eutectic behavior.
- Published
- 2021
34. Impact of Photolysis and TiO2 on Pesticides Degradation in Wastewater
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Khadijah R. Alharbi, Mashael Alshabanat, Modhi O. Alotaibi, Murefah Mana AL-Anazy, Mohamed H. EL-Saeid, and Abeer S. Altowyan
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lcsh:Hydraulic engineering ,Geography, Planning and Development ,02 engineering and technology ,010501 environmental sciences ,Aquatic Science ,Quechers ,01 natural sciences ,Biochemistry ,agriculture wastewater ,chemistry.chemical_compound ,lcsh:Water supply for domestic and industrial purposes ,lcsh:TC1-978 ,Atrazine ,Photodegradation ,wastewater ,0105 earth and related environmental sciences ,Water Science and Technology ,degradation ,lcsh:TD201-500 ,Chromatography ,Pesticide residue ,pesticides ,Pesticide ,021001 nanoscience & nanotechnology ,Triple quadrupole mass spectrometer ,Wastewater ,chemistry ,photolysis ,Photocatalysis ,0210 nano-technology ,TiO2 - Abstract
Pesticide residues are harmful to the environment and human and animal health even at low levels because of long-term bioaccumulation. In this study, photolysis was applied to treat three representative water samples: aqueous atrazine and dimethoate solutions as target pesticides, as well as wastewater and agriculture wastewater containing pesticide residue. It was performed using ultraviolet (UV) irradiation at two wavelengths (254 and 306 nm) with exposure times ranging from 2 to 12 h in the presence and absence of a photocatalyst to identify the optimal degradation conditions. Extraction and analyzation process were performed by the Quick Easy Cheap Effective Rugged Safe (QuEChERS) methods and gas chromatography–tandem mass spectrometry with triple quadrupole detector (GC–MSMS/TQD), respectively. Photodegradation increased with an increase in exposure time and the TiO2 catalyst was beneficial for degradation. Both selected irradiation wavelengths were effective, although the wavelength of λ = 306 nm was the most efficient.
- Published
- 2021
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35. Quantum Features of Atom–Field Systems in the Framework of Deformed Fields
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Abeer S. Altowyan, Sayed Abdel-Khalek, and Kamal Berrada
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Field (physics) ,Cat state ,Mathematics::Analysis of PDEs ,real and ideal lasers ,Quantum entanglement ,01 natural sciences ,lcsh:Technology ,010305 fluids & plasmas ,lcsh:Chemistry ,symbols.namesake ,sub-Poissonian photon statistics ,noncommutative spaces ,0103 physical sciences ,General Materials Science ,010306 general physics ,cat deformed states ,Instrumentation ,Quantum ,Nonlinear Sciences::Pattern Formation and Solitons ,lcsh:QH301-705.5 ,Spin-½ ,Fluid Flow and Transfer Processes ,Physics ,lcsh:T ,Process Chemistry and Technology ,General Engineering ,Quantum Physics ,Mathematics::Spectral Theory ,Noncommutative geometry ,photon antibunching ,lcsh:QC1-999 ,Computer Science Applications ,Classical mechanics ,lcsh:Biology (General) ,lcsh:QD1-999 ,deformed coherent states ,lcsh:TA1-2040 ,symbols ,Coherent states ,deformed su(2) algebra ,entanglement ,lcsh:Engineering (General). Civil engineering (General) ,Schrödinger's cat ,lcsh:Physics - Abstract
We propose a new kind of Schrö, dinger cat state introduced as a superposition of spin coherent states in the framework of noncommutative spaces. We analyze the nonclassical features for these noncommutative deformed states in terms of the main physical parameters. The physical importance of deformed states is that they provide a convenient description of a large set of laser systems. As an application, we develop the Jaynes&ndash, Cummings model by considering the interaction among atoms and cat state fields associated to deformed spin algebras. In this context, we show the dynamical behavior of the nonlocal correlation and nonclassical properties in these quantum systems.
- Published
- 2021
36. The impact of TeO2 on the gamma attenuation features of oxyfluoro boro-tellurite glasses
- Author
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Y. Al-Hadeethi, Abeer S. Altowyan, and M.I. Sayyed
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010302 applied physics ,Range (particle radiation) ,Photon ,Materials science ,Attenuation ,Analytical chemistry ,02 engineering and technology ,General Chemistry ,Radiation ,021001 nanoscience & nanotechnology ,01 natural sciences ,BORO ,0103 physical sciences ,General Materials Science ,Mass attenuation coefficient ,0210 nano-technology ,Half-value layer ,Effective atomic number - Abstract
This work presents a study on the characteristics of the radiation attenuating behavior of oxy-fluoro borotellurite glasses with general formula TeO2–B2O3–LiF–BaO–Bi2O3. The mass attenuation coefficient (MAC) decreases pointedly as the energy goes up from 15 keV–0.15 MeV. The MAC for the tested samples lies within the range 40.032–50.170 cm2/g at 15 keV. We examined the effective atomic number (Zeff), and the results revealed that initially Zeff reaches the maximum values up to around 0.1 MeV and then Zeff decreases and reaches the minimum values between around 1 and 4 MeV. The Zeff lies within the range of 56.11–57.85 (at 15 keV). The Zeff of the tested samples increases with the increasing content of TeO2. The half value layer (HVL) was evaluated, and the effect of TeO2 and the energy on this parameter was discussed. The minimum HVL was reported at 15 keV and varied between 0.00463–0.00226 cm.
- Published
- 2020
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37. Emission spectrum and geometric phase in deformed Jaynes-Cummings model
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Abeer S. Altowyan, Sayed Abdel-Khalek, and Kamal Berrada
- Subjects
010302 applied physics ,Physics ,Quantum optics ,Jaynes–Cummings model ,Spectrometer ,Jaynes-Cummings model ,Geometric phase ,General Physics and Astronomy ,Parity (physics) ,02 engineering and technology ,021001 nanoscience & nanotechnology ,01 natural sciences ,lcsh:QC1-999 ,Atom-field interaction ,Quantum harmonic oscillator ,Qubit ,Quantum mechanics ,0103 physical sciences ,Emission spectrum ,Parity deformations ,0210 nano-technology ,lcsh:Physics - Abstract
The emission spectrum of a qubit (two-level atom) system that interacts with a field in the framework of parity deformations is investigated in this paper. The model consists of a qubit coupled to a single-mode field within the parity deformed Jaynes-Cummings model (PDJCM) based on the λ -analog of the quantum harmonic oscillator algebra. We numerically evaluate the atomic emission spectrum (AES), by considering the influence of the deformed parameter and half-band-width of the spectrometer. Moreover, the dependence of the spectrum peaks on the detuning parameter is discussed. Finally, we study the variation of the geometric phase of the whole system state modelled by the PDJCM in terms of the main physical parameters.
- Published
- 2020
38. Fabrication of TiO2/NiO p-n Nanocomposite for Enhancement Dye Photodegradation under Solar Radiation
- Author
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Mohamed Zayed, Salsbeel Samy, Mohamed Shaban, Abeer S. Altowyan, Hany Hamdy, and Ashour M. Ahmed
- Subjects
General Chemical Engineering ,TiO2/NiO nanocomposite ,heterojunction ,photocatalytic ,dye degradation ,General Materials Science - Abstract
A p-n nanocomposite based on TiO2 nanotubes (NTs) and NiO nanoparticles (NPs) was designed and optimized in this study to improve the photocatalytic performance of methylene blue (MB). The hydrothermal technique has been used to produce TiO2/NiO nanocomposites with different NiO NPs weight ratios; 1TiO2:1NiO, 1TiO2:2NiO, and 1TiO2:3NiO. The crystal phase, chemical composition, optical properties, and morphology of TiO2/NiO were explored by various techniques. TiO2 NTs have a monoclinic structure, while NiO NPs have a cubic structure, according to the structural study. The bandgap of TiO2 NTs was reduced from 3.54 eV to 2.69 eV after controlling the NiO NPs weight ratio. The TiO2/2NiO nanocomposite showed the best photodegradation efficiency. Within 45 min of solar light irradiation, the efficiency of MB dye degradation using TiO2/2NiO hits 99.5% versus 73% using pure TiO2 NTs. Furthermore, the catalytic photodegradation efficiency did not deteriorate significantly even after five reusability cycles, intimating the high stability of the TiO2/2NiO nanocomposite. This suggests that the loading of NiO NPs into TiO2 NTs lowers the recombination of photo-produced electron/hole pairs and enlarged solar spectral response range, which results in improved photocatalytic activity. The mechanism of charge transfer in the TiO2/NiO and kinetic models were discussed for the photodegradation of MB.
- Published
- 2022
- Full Text
- View/download PDF
39. Photo-Catalytic Remediation of Pesticides in Wastewater Using UV/TiO2
- Author
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Mashael Alshabanat, Modhi O. Alotaibi, Khadiga Alharbi, Abeer S. Altowyan, Murefah Mana AL-Anazy, and Mohamed H. EL-Saeid
- Subjects
Environmental remediation ,Geography, Planning and Development ,Aquatic Science ,Biochemistry ,Dieldrin ,chemistry.chemical_compound ,agricultural wastewater ,TD201-500 ,wastewater ,degradation ,Water Science and Technology ,Water supply for domestic and industrial purposes ,catalysis ,Pesticide residue ,Chemistry ,Hydraulic engineering ,pesticides ,Pesticide ,UV ,photolysis ,Distilled water ,Wastewater ,Environmental chemistry ,Photocatalysis ,Degradation (geology) ,TC1-978 - Abstract
One of the most serious environmental concerns worldwide is the consequences of industrial wastes and agricultural usage leading to pesticide residues in water. At present, a wide range of pesticides are used directly to control pests and diseases. However, environmental damage is expected even at their low concentration because they are sustained a long time in nature, which has a negative impact on human health. In this study, photolysis and photocatalysis of the pesticides dieldrin and deltamethrin were tested at two UV wavelengths (254 and 306 nm) and in different test media (distilled water, wastewater, and agricultural wastewater) to examine their ability to eliminate pesticides. TiO2 (0.001 g/10 mL) was used as a catalyst for each treatment. The purpose was to determine the influence of UV wavelength, exposure time, and catalyst addition on the pesticide decomposition processes in different water types. Water was loaded with the tested pesticides (2000 µg) for 12 h under UV irradiation, and the pesticide concentrations were measured at 2 h intervals after UV irradiation. The results showed a clear effect of UV light on the pesticides photodegradations that was both a wavelength- and time-dependent effect. Photolysis was more effective at λ = 306 nm than at λ = 254 nm. Furthermore, TiO2 addition (0.001 g/10 mL) increased the degradation at both tested wavelengths and hence could be considered a potential catalyst for both pesticide degradations. Deltamethrin was more sensitive to UV light than dieldrin under all conditions.
- Published
- 2021
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40. Developed barium fluoride-based borate glass: Ag2O impacts on optical and gamma-ray attenuation properties
- Author
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K.A. Mahmoud, Jamila S. Alzahrani, Abeer S. Altowyan, M.I. Sayyed, A.S. Abouhaswa, and Yas Al-Hadeethi
- Subjects
Quenching ,Materials science ,Barium fluoride ,Oxide ,Analytical chemistry ,Borate glass ,02 engineering and technology ,021001 nanoscience & nanotechnology ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,010309 optics ,chemistry.chemical_compound ,chemistry ,Attenuation coefficient ,0103 physical sciences ,Gamma ray attenuation ,Electrical and Electronic Engineering ,0210 nano-technology ,Chemical composition - Abstract
A quaternary glass system was fabricated via the melting quenching method. The mentioned glass system consists of five samples described by the chemical composition 50B2O3 + 30BaF2 + (20-x)Li2O + xAg2O, 0.0
- Published
- 2021
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41. Fabrication, structure, physical and optical features of the 50B2O3 + 25Bi2O3 + (25-x) Li2O + xSrO2 glasses
- Author
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Yas Al-Hadeethi, K.A. Mahmoud, Abeer S. Altowyan, A.S. Abouhaswa, and M.I. Sayyed
- Subjects
Diffraction ,Materials science ,Absorption spectroscopy ,Band gap ,Doping ,Analytical chemistry ,chemistry.chemical_element ,02 engineering and technology ,021001 nanoscience & nanotechnology ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,Amorphous solid ,010309 optics ,chemistry ,0103 physical sciences ,Lithium ,Electrical and Electronic Engineering ,0210 nano-technology ,Absorption (electromagnetic radiation) ,Refractive index - Abstract
The purpose of this investigation is to study the physical, structural and optical characteristics of a newly fabricated SrO2 doped lithium bismuth borate glass system. The current glass system was fabricated according to the chemical formula 50B2O3 + 25Bi2O3 + (25-x) Li2O + xSrO2, utilizing the solid state- conventional method. It was noticed that The glass density increased from 4.821 to 5.952 g cm−3 whilst the molar volume was decreasing in the range from 32.93 to 30.44 cm3 mol−1 with increase the SrO2 insertion from 0 (BBLSr0 glasses) to 25 (BBLSr25) respectively. The structure of the fabricated glasses was inspected utilizing X-ray diffraction method which clarified that the insertion of SrO2 didn’t affect the amorphous nature of the tested samples. Furthermore, the UV–vis absorption spectrum was utilized to study the UV absorption characteristics for the fabricated glasses. The UV–vis absorption spectrum showed that the absorption and transition bands increase with insertion of the SrO2 contents. Based on the UV/Vis data, several important optical features were calculated like the energy gap (Eg), Urbach energy (Eu), oscillator energy (Eo) and energy of distribution (Ed). Increasing the SrO2 substitution ratio led to increase the optical properties where the refractive index was found to increase from 3.056 to 5.710.
- Published
- 2021
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42. Physical characteristics of NaTaO3Under pressure for electronic devices
- Author
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Abeer S. Altowyan, Javed Iqbal, Mehwish Khalid Butt, Muhammad Yaseen, Adil Murtaza, Shanza Mubashir, Amel Laref, Munawar Iqbal, Sadia Riaz, and A. Dahshan
- Subjects
010302 applied physics ,Work (thermodynamics) ,Materials science ,Condensed matter physics ,Mechanical Engineering ,02 engineering and technology ,Dielectric ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,Reflectivity ,WIEN2k ,Mechanics of Materials ,Attenuation coefficient ,0103 physical sciences ,Thermoelectric effect ,General Materials Science ,Density functional theory ,Electronics ,0210 nano-technology - Abstract
In the present work, the optical, electronic and thermoelectric (TE) characteristics of NaTaO3 are investigated with implementation of pressure ranging 0 to 140 GPa.The calculations were done in the framework of density functional theory (DFT) within Perdew-Burke-Ernzerhof generalized gradient approximation (PBE-GGA) scheme implemented within WIEN2K package. The semiconducting Eg behavior of NaTaO3compound has been revealed at all applied pressures. Results indicated that the value of Eg increments from 2.29 eV (0 GPa) to 2.82 eV (140 GPa), however, the characteristics of Eg transformed to direct from indirect with the increment in pressure. The optical characteristics are also explored in the form of dielectric constants, reflectivity (R (ω)) and absorption coefficient (α (ω)). Moreover, the TE characteristics are also investigated. TE and optical features disclosed that NaTaO3 is a good candidate for optical and TE devices.
- Published
- 2021
- Full Text
- View/download PDF
43. Effect of the VK-Stilbene copolymer nanostructuration on their photophysical properties
- Author
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W. Taouali, Kamel Alimi, Abeer S. Altowyan, and M. Mbarek
- Subjects
Photoluminescence ,Materials science ,Organic Chemistry ,Nanowire ,Quantum yield ,Context (language use) ,Nanotechnology ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,Nanomaterials ,Inorganic Chemistry ,Electrical and Electronic Engineering ,Physical and Theoretical Chemistry ,Spectroscopy ,Luminescence ,Template method pattern - Abstract
A very interesting challenge concerns the elaboration of nanowires from organic polymers with the aim to design novel nanoelectronic devices. The new VK-Stilbene copolymer based on organic nanowires was developed and characterized in this context. The VK-Stilbene nanowires were made with a template method by filling nanopores of AOO membranes. The prepared nanowires wereinvestigated by morphological spectroscopy and micro-Raman Rinshaw analysis. The modifications of photoemissive properties from microscopy film to nanowires were described by steady-state optical techniques combinedwith time-resolved photoluminescence spectroscopy. A blue shift of the luminescence are observed in the case of nanowires proceed from structural order and shortening of effective conjugation lengths. Therefore, VK-Stilbene nanowires exhibit a remarkably quasi-exponential long-lived and blue-shifted ascribed to a confinement-effect of intra-chain singlet excitons. Additionally, these nano-objects show an increase in the quantum yield with respect to bulk samples. The acquired optical data confirm that VK-Stilbene nanomaterials may be suitable for nanotechnologies.
- Published
- 2021
- Full Text
- View/download PDF
44. Newly developed glass samples containing P2O5–B2O3–Bi2O3–Li2O–CdO and their performance in optical and radiation attenuation applications
- Author
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Abeer S. Altowyan, Yas Al-Hadeethi, A.S. Abouhaswa, K.A. Mahmoud, and M.I. Sayyed
- Subjects
Range (particle radiation) ,Materials science ,Band gap ,Near-infrared spectroscopy ,Analytical chemistry ,02 engineering and technology ,Crystal structure ,Radiation ,021001 nanoscience & nanotechnology ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,010309 optics ,Absorbance ,Molar volume ,0103 physical sciences ,Electrical and Electronic Engineering ,0210 nano-technology ,Refractive index - Abstract
In this research, the radiation safety features and the optical properties of novel prepared glass samples with nominal compositions 45P2O5 + 25B2O3 + 20Bi2O3 + (10-x)Li2O+xCdO where x = 0, 2.5, 5, 7.5, and 10 have been studied. The XRD was utilized to exclude the crystal structure nature of the glass samples. The density of the samples increases while the molar volume decreases with the rise of the CdO incrementation ratio. The UV-Vis NIR spectroscopy was utilized to measure the absorbance rate of the fabricated glass sample. Based on the measured absorbance, some important parameters were evaluated, such as the energy gap, Urbach energy, refractive index. The Monte-Carlo simulation code was utilized to evaluate the radiation attenuation properties of the current glass samples in the energy range 0.015 till 15 MeV.
- Published
- 2021
- Full Text
- View/download PDF
45. Effect of liquid media and laser energy on the preparation of Ag nanoparticles and their nanocomposites with Au nanoparticles via laser ablation for optoelectronic applications
- Author
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Abeer S. Altowyan, Ayman M. Mostafa, and Hoda A. Ahmed
- Subjects
Laser ablation ,Nanocomposite ,Materials science ,business.industry ,Nuclear Theory ,Far-infrared laser ,Shell (structure) ,Physics::Optics ,Nanoparticle ,02 engineering and technology ,021001 nanoscience & nanotechnology ,Laser ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,law.invention ,010309 optics ,Crystallinity ,law ,0103 physical sciences ,Optoelectronics ,Electrical and Electronic Engineering ,0210 nano-technology ,business ,Bimetallic strip - Abstract
The nanostructured materials from Ag and Au@Ag core/shell bimetallic were synthesized by pulsed infrared laser ablation process in different liquid media technique in just one-pot step. By varying the surrounding media by metallic precursor solution and the laser energy, the monometallic nanoparticles were changed to bimetallic nanocomposites in a form of core/shell structure with tuning their shell thickness. The prepared nanostructured materials were examined by different spectroscopic techniques to inform their physicochemical properties. The characterization techniques proved that the crystallinity of prepared samples. Besides, the bimetallic nanocomposite structure has a core/shell form with Au in the core and Ag in shell. Also, as the laser intensity raises, the Ag-shell’s thickness grows, and the core/shell diameter increases, which was affected in their linear and nonlinear optical properties. Their linear properties were investigated depended on Mie theory. Besides, the nonlinear optical parameters were determined by Z-scan technique, which demonstrated that the nonlinear optical properties of a shell can be tuned depending on their thickness. The prepared core/shell nanocomposites with different particle sizes confirmed the capability for possible application in optoelectronic applications as good optical limiting materials.
- Published
- 2021
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- View/download PDF
46. Author Correction: Optical investigations and photoactive solar energy applications of new synthesized Schiff base liquid crystal derivatives
- Author
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Mohamed Shaban, Sobhi M. Gomha, Tariq Z. Abolibda, Abeer S. Altowyan, Fowzia S. Alamro, and Hoda A. Ahmed
- Subjects
Multidisciplinary ,Schiff base ,Materials science ,business.industry ,Science ,Solar energy ,chemistry.chemical_compound ,chemistry ,Liquid crystal ,Physical chemistry ,Medicine ,business - Abstract
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
- Published
- 2021
47. Structural, electronic, half –metallic ferromagnetic and optical properties of cubic MAlO3 (M=Ce, Pr) perovskites: A DFT study
- Author
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Amel Laref, Muhammad Yaseen, Munawar Iqbal, Adil Murtaza, Abeer S. Altowyan, Mehwish Khalid Butt, and Javed Iqbal
- Subjects
Materials science ,Condensed matter physics ,Magnetic moment ,Spintronics ,02 engineering and technology ,General Chemistry ,Dielectric ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,Optical conductivity ,0104 chemical sciences ,Magnetization ,Ferromagnetism ,Density of states ,Condensed Matter::Strongly Correlated Electrons ,General Materials Science ,0210 nano-technology ,Electronic band structure - Abstract
The first principles calculation is implemented to predict the phase stability, optical activities and magneto-electronic characteristics of cubic MAlO3 (M = Ce, Pr) perovskites. The optimized structural parameters authenticate the stability of the ferromagnetic state, and also it is confirmed by enthalpy of formation (ΔHf). Stability of MAlO3 compounds is verified with the help of tolerance factor ( τ ) in the cubic phase. The density of states (DOS) and spin polarized band structure (BS) elucidate the ferromagnetic half metallic (HM) type of MAlO3 compounds, with Ce/Pr-f states play a major role. The calculated value of magnetic moment increases from cubic CeAlO3 (1 μB) to PrAlO3 (2 μB), and Ce and Pr atoms enormously contribute in magnetization. Moreover, various optical parameters such adsorption coefficient, dielectric constants, reflectivity, optical conductivity and refractive indexare also studied. The outcomes recommend that these perovskites might be suitable candidates for optical and spintronic devices.
- Published
- 2021
- Full Text
- View/download PDF
48. Properties of transient spectrum and field purity for a qubit system in squeezed states
- Author
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K. K. Kabashi, Sayed Abdel-Khalek, I. A. Osman, Kamal Berrada, and Abeer S. Altowyan
- Subjects
010302 applied physics ,Physics ,Photon ,Field (physics) ,QC1-999 ,Spectrum (functional analysis) ,General Physics and Astronomy ,02 engineering and technology ,Optical field ,021001 nanoscience & nanotechnology ,01 natural sciences ,Transient spectrum ,Squeezed coherent states ,Qubit ,Quantum mechanics ,0103 physical sciences ,Rotating wave approximation ,Transient (oscillation) ,Squeezed number states ,0210 nano-technology ,Field purity ,Squeezed coherent state - Abstract
The present study investigates the transient spectrum (TS) of a two-level system that interacts with a generalized squeezed state without using the rotating wave approximation (RWA). We consider the purity of the optical field, which is developed in a generalized squeezed state, utilizing the linear entropy. The analytic expressions of the TS and field purity (FP) of the bipartite system are evaluated. Moreover, the study exhibits the influence of the squeezed parameter and some photons transition on the TS and FP. We obtain that the control of the FP may be generated based on an adequate choice of the photons transition and squeezed parameter. Such results can be utilized in the understanding and development of various tasks of quantum physics and optics.
- Published
- 2021
- Full Text
- View/download PDF
49. White, blue and green emission from Si QDs derived from zinc incorporated porous silicon
- Author
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Abeer S. Altowyan, Marzaini Rashid, Mohammad S. Almomani, Naser M. Ahmed, and Munirah Abdullah Almessiere
- Subjects
Materials science ,Absorption spectroscopy ,Band gap ,Biophysics ,Analytical chemistry ,02 engineering and technology ,General Chemistry ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Porous silicon ,01 natural sciences ,Biochemistry ,Atomic and Molecular Physics, and Optics ,0104 chemical sciences ,X-ray photoelectron spectroscopy ,Quantum dot ,Etching (microfabrication) ,0210 nano-technology ,Luminescence ,Visible spectrum - Abstract
This paper reports the tailored visible light emission (blue, green and white) traits of the colloidal silicon quantum dots (SiQDs) integrated with zinc (ZnSiQDs). These QDs were derived from the PSi etched with Zn powder. The ZnSiQDs was prepared via the photo-electrochemical etching process (40 mA/cm2 for 20 min) of the n-type Si wafer immersed inside the solution made from the hydrofluoric (HF) acid to ethanol (ET) volume ratios of 7:1 and 7:3 with the Zn powder (0.17 g) inclusion. The as-prepared samples (named as ZnSiQDs-7:1 and ZnSiQDs-7:3) were characterized to determine the influence of HF:ET on their structure, morphology and optical characteristics. The XPS analyses of the samples revealed the formation of ZnO. The FESEM images exhibited the growth of PSi layer of thickness 8.192 μm and 7.073 μm for the ZnSiQDs-7:3 and ZnSiQDs-7:1 samples, respectively. The EFTEM image analyses showed the nucleation of the ZnSiQDs of average diameter 2.7 nm (for ZnSiQDs-7:3) and 1.33 nm (for ZnSiQDs-7:1). The band gap energy for both samples estimated from the absorption spectra was 3.6 eV. The emission spectra of the studied ZnSiQDs under three different excitation wavelengths disclosed the intense visible peaks (blue, green and white) in the range of 385–700 nm. This observation was mainly ascribed to the effects of quantum confinement and ZnO surface layer on the SiQDs that minimized the silicon oxidation. It is established that by controlling the HF to ET volume ratio the visible luminescence of the ZnSiQDs can be customized, useful for diverse optoelectronic applications.
- Published
- 2021
- Full Text
- View/download PDF
50. Synthesis, optical and radiation shielding capacity of the Sm2O3 doped borate glasses
- Author
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M.I. Sayyed, Y. Al-Hadeethi, K.A. Mahmoud, A. S. Abouhaswa, and Abeer S. Altowyan
- Subjects
010302 applied physics ,Diffraction ,Materials science ,Band gap ,Analytical chemistry ,02 engineering and technology ,Neutron radiation ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,Neutron temperature ,Electronic, Optical and Magnetic Materials ,Absorbance ,0103 physical sciences ,Materials Chemistry ,Ceramics and Composites ,Mass attenuation coefficient ,0210 nano-technology ,Spectroscopy ,Refractive index - Abstract
A new glass system with a chemical formula (60-x) B2O3+20Bi2O3 +20Li2O+ xSm2O3: x = 0, 1.25, 2.5, 3.75 and 5 wt% was synthesized using the solid-state conventional approach. The density of the newly fabricated glasses was determined using the Archimedes method. The glasses’ structure was studied utilizing the X-ray diffraction spectroscopy. Moreover, some of the most effective optical features such as the refractive index (n), energy gap (Eg), and Urbach energy (Eu) were determined based on the absorbance obtained from the UV-visible spectrum. Furthermore, the radiation shielding capacity of the newly fabricated samples was assessed utilizing the Monte Carlo Modeling (MCNP 5) code and Phy-X/PSD software. The calculated mass attenuation coefficient (MAC) values at 0.015 MeV were observed to increase from 21.893 to 25.570 cm2 g−1 for glasses BBLS1 and BBLS5 respectively. Simulations demonstrated that the MAC of the fabricated glasses enhanced with the insertion of the Sm2O3 contents. Besides, the buildup factors (EBF and EABD) were calculated using the program Phy-X/PSD. The removal cross-section ƩR for the fast neutrons was theoretically calculated. The calculated results showed the ƩR varied in the range between 0.170 and 0.241 cm-1 for glasses BBLS1 and BBLS5 respectively. The recorded results depict that the insertion of Sm2O3 enhances the optical, gamma-ray, and neutron shielding capacities.
- Published
- 2021
- Full Text
- View/download PDF
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