Influence of the roughness of molybdenum back electrode on the photodiode characteristics under He–Ne illumination

Ristova, Mimoza; Kuo, Yue; Lee, S

doi:10.1088/0268-1242/18/8/312

Cited by 18 publications

(5 citation statements)

References 12 publications

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“…On the other hand, the texture coefficient (TC) which indicates the maximum preferred orientation of the films along the diffraction plane means that the increase in the preferred orientation is associated with the increase of the number of grains along that plane. TC(h k l) values have been calculated from X-ray data, using the following formula [30,33,35,36] XRD spectra were used to study the effect of incorporation of the element Sn in the MoO 3 matrix respectively on the crystallite size, using the formula Deby-Scherrer [37][38], the stress [39] and dislocation density [30,37] 1 D…”

Section: Structural Propertiesmentioning

confidence: 99%

Structural, optical, vibrational and photoluminescence studies of Sn-doped MoO 3 sprayed thin films

Boukhachem

Kamoun

Mrabet

et al. 2015

Materials Research Bulletin

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Section: Structural Propertiesmentioning

confidence: 99%

Structural, optical, vibrational and photoluminescence studies of Sn-doped MoO 3 sprayed thin films

Boukhachem

Kamoun

Mrabet

et al. 2015

Materials Research Bulletin

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“…Figure 4 shows 3D topography performed with Atomic Force Microscope of tin doped NiO thin films. The root mean square roughness (Rq) values were obtained from AFM observations and calculated using the following relation [41]:…”

Section: Structural Analysesmentioning

confidence: 99%

Optical, Physical, Chemical and Electrical Properties of Nickel Oxide Sprayed Thin Films under Tin Doping Effects

Amor¹,

Hamzaoui²,

Boukhachem³

et al. 2015

Advances in Ceramic Science and Engineering

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Tin-doped nickel oxide thin films have been successfully prepared by spray pyrolysis technique on glass substrates at 460°C. The effects of tin doping on structural, optical, and electrical properties were investigated. X-ray diffraction pattern reveals that all prepared thin films have cubic structure with (111) preferred orientation. The surface topography of these films was performed by atomic force microscopy. Optical measurements show a high transparency in the visible range around 95%. The optical band gap Eg decreases with Sn content from 3.633 to 3.54 eV. PL measurements show some bands transition which shift irregularly with Sn doping. Finally, the electric conductivity of NiO thin film was investigated through the impedance spectroscopy measurements in the frequency range 5 Hz-13 MHz at various temperatures. These measurements show a thermally activation of the electric. AC conductivity of NiO thin films is investigated through Jonscher law. Also, from these measurements, dielectric parameters were calculated.

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“…In the same line, the root mean square roughness (R q ) is calculated by the following relation [41]:…”

Section: Atomic Force Microscopy (Afm) Observationsmentioning

confidence: 99%

Structural, opto-thermal and electrical properties of ZnO:Mo sprayed thin films

Boukhachem

Ouni

Karyaoui

et al. 2012

Materials Science in Semiconductor Processing

106

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Influence of the roughness of molybdenum back electrode on the photodiode characteristics under He–Ne illumination

Cited by 18 publications

References 12 publications

Structural, optical, vibrational and photoluminescence studies of Sn-doped MoO 3 sprayed thin films

Structural, optical, vibrational and photoluminescence studies of Sn-doped MoO 3 sprayed thin films

Optical, Physical, Chemical and Electrical Properties of Nickel Oxide Sprayed Thin Films under Tin Doping Effects

Structural, opto-thermal and electrical properties of ZnO:Mo sprayed thin films

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