Prof. Mostefa Benhaliliba
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Prof. Mostefa Benhaliliba

Professor Doctor
Oran University, Algeria

Highest Degree
Ph.D. in Physics from Oran University, Algeria

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Biography

Prof Dr Benhaliliba in physics faculty, my Interest fields are
Thin films- inorganic and organic devices- nanostructures-semiconductors-sensors-solar cell-photovoltaic system. Material Sciences -Nanomaterials synthesis and Characterizations. Oxides and superconductors.
Author of many articles, chapter books and communications since 2005. Reviewer in many journal elesevier and springer. supervisor of Msc and Phd Students since 2009
head of research projects2012-2017

Area of Interest:

Physical Science Engineering
100%
Thin Films
62%
Organic Electronics
90%
Electronic Devices
75%
Solar Cell
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Benhaliliba, M., 2022. A rectifying Al/ZnO/pSi/Al heterojunction as a photodiode. Micro and Nanostruct., Vol. 163. 10.1016/j.spmi.2021.107140.
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  2. Benhaliliba, M. and A.B. Ahmed, 2022. The phthalocyanine blue-green pigments devices intended for optical filters. Optik, Vol. 258. 10.1016/j.ijleo.2022.168808.
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  3. Ahmed, A.B., M. Benhaliliba, Y.S. Ocak, A. Ayeshamariam and C.E. Benouis, 2022. Photovoltaic parameters and computational spectroscopic investigation of third order nonlinear optical of CuPc/Si organic diode. Opt. Mater., Vol. 126. 10.1016/j.optmat.2022.112071.
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  4. Chaibi, K., M. Benhaliliba and A. Ayeshamariam, 2021. Computational assessment and experimental study of optical and thermoelectric properties of rutile SnO2 semiconductor. Superlattices Microstruct., Vol. 155. 10.1016/j.spmi.2021.106923.
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  5. Benhaliliba, M., 2021. ZnO a multifunctional material: Physical properties, spectroscopic ellipsometry and surface examination. Optik, Vol. 241. 10.1016/j.ijleo.2021.167197.
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  6. Benhaliliba, M., T. Asar and S. Özçelik, 2020. Negative capacitance within forward biasing voltage of organic device at higher frequencies. Optik, Vol. 217. 10.1016/j.ijleo.2020.164791.
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  7. Benhaliliba, M., 2020. A growth of A–Z phthalocyanine layers onto Si by thermal evaporation process to achieve organic heterojunction diodes. Optik, Vol. 217. 10.1016/j.ijleo.2020.164832.
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  8. Arrar, A., M. Benhaliliba, A. Boukhachem, U. Yahşi, C. Tav, A. Yumak and M. Amlouk, 2020. Optical and photoluminescence spectroscopy analysis and Doppler broadening annihilation radiation studies of perovskites based on La1-XNiXMnO2.75 thin layers. Optik, Vol. 224. 10.1016/j.ijleo.2020.165678.
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  9. Benhaliliba, M., 2017. The photovoltaic properties of a good rectifying al/n-zno/p-si/al schottky diode used in solar cell. J. Fundam. Appl. Sci., 9: 605-617.
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  10. Mohra, D., M. Benhaliliba, M. Serin, M.R. Khelladi, H. Lahmar and A. Azizi, 2016. The investigation of electrodeposited Cu2O/ITO layers by chronocoulometry process: effect of electrical potential. J. semicond., 37: 1-7.
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  11. Missoum, I., Y.S. Ocak, M. Benhaliliba, C.E. Benouis and A. Chaker, 2016. Microelectronic properties of Organic Schottky diodes based on MgPc for solar cell applications. Synth. Met., 214: 76-81.
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  12. Benhaliliba, M. and Y.S. Ocak, 2016. An experimental insight into the ZnO thin films properties prepared by dip coating technique. J. Nano Electron. Phys., 8: 4010-4010.
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  13. Tombak, A., M. Benhaliliba, Y.S. Ocak and T. Kilicoglu, 2015. The novel transparent sputtered p-type CuO thin films and Ag/p-CuO/n-Si Schottky diode applications. Results Phys., 5: 314-321.
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  14. Missoum, I., M. Benhaliliba, A. Chaker, Y.S. Ocak and C.E. Benouis, 2015. A Novel device behavior of Ag/MgPc/n-GaAs/Au-Ge organic based Schottky Diode. Synth. Met., 207: 42-45.
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  15. Benhaliliba, M., Y.S. Ocak, H. Mokhtari, C.E. Benouis and M.S. Aida, 2015. The microelectronic parameters of Al /ZnO/p-Si/Al Schottky diode for solar cell applications. Dufed, 4: 1-3.
  16. Benhaliliba, M., Y.S. Ocak, H. Mokhtari and T. Kilicoglu, 2015. Impedance Analysis of the Al/ZnO/p-Si/Al Schottky Diode: C-V Plots and Extraction of Parameters. J. Nano Electron. Phys., 7: 2001-2001.
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  17. Benhaliliba, M., Y.S.Ocak, H. Mokhtari, C.E. Benouis and M.S. Aida, 2015. The microelectronic parameters of Al /ZnO /pSi/Al Schottky diode for solar cell applications. Dicle Univ. Inst. Nat. Appl. Sci. J., 4: 55-58.
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  18. Benhaliliba, M., A. Tiburcio-Silver, A. Avila-Garcia, A. Tavira, Y.S. Ocak, M.S. Aida and C.E. Benouis, 2015. The sprayed ZnO films: nanostructures and physical parameters. J. Semicond., .
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  19. Benhaliliba, M., A. Tiburcio-Silver and A. Avila-Garcia, 2015. AFM Calculated Parameters of Morphology Investigation of Spin Coated MZO (M= Al, Sn, Cd, Co) Layers. J. Nano Electron. Phys., 7: 4012-4012.
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  20. Benhaliliba, M., 2015. The barrier height and the series resistance of Ag/SnO2/Si/Au Schottky diode determined by Cheung and Lien methods. J. N. Technol. Mater., 5: 24-27.
  21. Benhaliliba, M., 2015. Extracted Electronic Parameters of a Novel Ag / SnO2: In / Si / Au Schottky Diode for Solar Cell Application. J. Nano Electron. Phys., 7: 2029-2029.
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  22. Benouis, C.E., M. Benhaliliba, Z. Mouffak, A. Avila-Garcia and A. Tiburcio-Silver et al., 2014. The low resistive and transparent Al-doped SnO2 films: p-type conductivity, nanostructures and photoluminescence. J. Alloys Compd. 603: 213-223.
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  23. Benhaliliba, M., Y.S. Ocak and C.E. Benouis, 2014. Effect of Metal on Characteristics of MPc Organic Diodes. J. Nano Electron. Phys., 6: 4009-4009.
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  24. Benhaliliba, M., Y.S.Ocak, H. Mokhtari and C.E. Benouis, 2014. Synthesis and Properties of Au/PVP/p-Si/AlHeterojunction Diode. IEEE, 10.1109/NAWDMPV.2014.6997599.
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  25. Benhaliliba, M., 2014. The study of the sprayed zinc oxide films: optical and dielectric parameters. Dufed, 3: 79-86.
  26. Benhaliliba, M., Y.S. Ocak and A. Tab, 2013. Characterization of Coated Fe-Doped Zinc Oxide Nanostructures. J. Nano Electron. Phys., 5: 3001-3001.
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  27. Benhaliliba, M., C.E. Benouis, Z. Mouffak, Y.S.Ocak and A. Tiburcio-Silver et al., 2013. Preparation and Characterization of Nanostructures of In-Doped ZnO films Deposited by Chemically Spray Pyrolysis: Effect of Substrate Temperatures. Superlattices Microstruct., 63: 228-239.
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  28. Benhaliliba, M., C.E. Benouis, M.S. Aida, Y.S. Ocak and F. Yakuphanoglu, 2013. Investigation of ZnO nanostructures: effect of metal and spinning speed on the physical properties. Int. J. Nanoparticles, 6: 239-251.
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  29. Aydin, C., M. Benhaliliba, A.A. Al-Ghamdi, Z.H. Gafer, F. El-Tantawy and F. Yakuphanoglu, 2013. Determination of optical band gap of ZnO:ZnAl2O4 composite semiconductor nanopowder materials by optical reflectance method. J. Electroceram., 31: 265-270.
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  30. Benhaliliba, M., C.E. Benouis, Y.S. Ocak and F. Yakuphanoglu, 2012. Nanostructured Al Doped SnO2 Films Grown onto ITO Substrate via Spray Pyrolysis Route. J. Nano Electron. Phys., 4: 1011-1011.
  31. Benhaliliba, M., C.E. Benouis, F. Yakuphanoglu, A. Tiburcio-Silver, C. Aydin, S. Hamzaoui and Z. Mouffak, 2012. Detailed investigation of submicrometer-sized grains of chemically sprayed (Sn1-x Alx, O2)(0≤ x≤ 0.085) thin films. J. Alloys Compd, 527: 40-47.
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  32. Benhaliliba, M., C.E. Benouis, A. Tiburcio-Silver, F. Yakuphanoglu and A. Avila-Garcia et al., 2012. Luminescence and physical properties of copper doped CdO derived nanostructures. J. Luminescence, 132: 2653-2658.
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  33. Benouis, C.E., M. Benhaliliba, F. Yakuphanoglu, A.T. Silver, M.S. Aida and A.S. Juarez, 2011. Physical properties of ultrasonic sprayed nanosized indium doped SnO2 films. Synth. Met., 161: 1509-1516.
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  34. Benhaliliba, M., C.E. Benouis, K. Boubaker, M. Amlouk and A. Amlouk, 2011. A New Guide to Thermally Optimized Doped Oxides Monolayer Spray-Grown Solar Cells: The Amlouk-Boubaker Optothermal Expansivity ψAB. In: Solar Cells - New Aspects and Solutions. Kosyachenko, L.A., (Ed.). Intech, Croatia, pp- 27-41.
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  35. Benhaliliba, M., A. Belasri, F. Chami and Y.A. Lebedev, 2007. Study of Langmuir Probe Parameters in Low Temperature Plasma-Theory and Experiment. Int. Rev. Phys., 1: 127-127.
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  36. Benhaliliba, M. and A. Belasri, 2007. Calculation of plasma dielectric function in several regions of frequency. Phys. Chem. News, 35: 18-30.
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  37. Benhaliliba, M. and A. Belasri, 2006. The anisofrequency parameter calculation in the regions of langmuir probe operation-application to argon plasma. J. Applied Sci., 6: 3075-3081.
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