Qasrawı, Atef Fayez Hasan

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Citation - WoS: 5
Citation - Scopus: 5
Structural and Electrical Characterizations of the as Grown and Annealed Au/Mοo_{3< Bandpass Filters}
(Wiley, 2019) Khanfar, Hazem K.; Qasrawi, Atef; Daraghmeh, Masa; Abusaa, Muayad
In this work, the structural, morphology, and electrical properties of two 500 nm thick molybdenum trioxide layers that are sandwiched with indium slab of thickness of 200 nm (MoO3/In/MoO3 [MIM]) to form a bandpass filter are investigated by X-ray diffraction (XRD), scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDX), and impedance spectroscopy techniques, respectively. The MIM films which coated onto Au thin film substrates by the thermal evaporation technique under vacuum pressure of 10(-5) mbar was post annealed at 250 degrees C in air atmosphere. While the XRD analysis revealed polycrystalline hexagonal lattice structure of the Au/MLM samples, the SEM and EDS analysis displayed grains of sizes of 350 nm and stoichiometric structure of MoO3. Electrically, indium layer which caused n-type conduction with donor level of 299 meV, forced the material to exhibit negative capacitance (NC) effect at high frequencies (above 1.1 GHz). The impedance spectroscopy which was recorded in the frequency domain of 0.01 to 1.80 GHz, also revealed low pass and high pass filters characteristics in the low and high frequency domains, respectively. The annealing of the Au/MIM samples, decreased the crystallite and grain sizes and increased the microstrain, the defect density and the stacking faults. Small amount of excess oxygen and some indium deficiency are observed upon annealing. In addition, the annealing shifted the donor level closer to the bottom of the conduction band and inverted the NC effect from high to low frequency regions. The study indicates the applicability of the Au/MIM/C structures as microwave cavities and parasitic capacitance cancellers in electronic circuits.
Citation - WoS: 8
Citation - Scopus: 7
Negative Capacitance Effect in Ag/-in_{2< Dual Band Stop Filters}
(Springer, 2019) Khanfar, Hazem K.; Qasrawi, A. F.; Shehada, Sufyan R.
In the current study, a 1.5m thick three channel microwave band filter is designed and characterized. The thin film device which was constructed from the indium selenide, cadmium sulfide and cadmium selenide stacked dielectric materials sandwiched between silver and carbon films is studied by means of x-ray diffraction, energy dispersive x-ray analysis and impedance spectroscopy techniques. It was observed that the Ag thin film substrate induced the formation of the hexagonal -In2Se3 phase of indium selenide. The x-ray analysis has also shown that the deposition of hexagonal CdS over Ag/-In2Se3 and that of hexagonal CdSe over -In2Se3/CdS under vacuum pressure of 10(-8) bar is of a highly strained and mismatched physical nature. The impedance spectroscopy analysis in the frequency domain of 0.10-1.80GHz has shown that; while the Ag/-In2Se3/C channel exhibit negative capacitance (NC) effects in the frequency domain of 0.10-1.40GHz, the Ag/-In2Se3/CdS/C and the Ag/-In2Se3/CdS/CdSe/C channels displayed a NC feature in the domains of 1.24-1.40GHz and 1.10-1.56GHz, respectively. The fitting of the capacitance spectra in accordance with the modified Ershov model allowed determining the NC and band filtering parameters. It was also observed that, although the Ag/-In2Se3/C channel behaves as a high frequency low pass filter, the second and third channels displayed band stop filter features with notch frequencies of 1.38GHz and 1.49GHz, respectively. The features of the device nominate it for use as a parasitic capacitance canceller and as a three channels microwave filter.

Journal	Count
Journal of Electronic Materials	15
Crystal Research and Technology	13
physica status solidi (a)	12
Journal of Alloys and Compounds	11
Materials Science in Semiconductor Processing	11

Qasrawı, Atef Fayez Hasan

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