Dr. Nayla  El-Kork
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Dr. Nayla El-Kork

Assistant Professor
Khalifa University, UAE


Highest Degree
Ph.D. in Physics from Universite Claude Bernard Lyon 1, France

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Biography

Dr. Nayla El-Kork holds a position of Assistant Professor at Khalifa University-U.A.E. She has completed her Ph.D. in Physics from Universite Claude Bernard Lyon 1, France. Previously she was appointed as Physics Tutor and Teaching Assistant at Universite Claude Bernard Lyon 1-France and Assistant Professor at Beirut Arab University-Lebanon. She has published 12 research articles in referred journals contributed as author/co-author. She also received grants for her research work. Dr. Nayla is also serving referee for journals such as Journal of nanoparticle research (Springer), Applied Physics, Nanotechnology-IEEE nano 2014, and Journal of Bioelectronics and Nanotechnology, member of editorial board in Canadian Arena of Applied Scientific Research, and Session chair for 2 conferences.

Area of Interest:

Physical Science Engineering
100%
Nanostructures
62%
Optical Properties
90%
Silicon
75%
Biomarkers
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Elmoussaoui, S., N. El-Kork and M. Korek, 2016. Electronic structure with dipole moment and ionicity calculations of the low-lying electronic states of ZnF molecule. Can. J. Chem., 95: 22-27.
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  2. Elmoussaoui, S., N. El-Kork and M. Korek, 2016. Electronic structure of the ZnCl molecule with rovibrational and ionicity studies of the ZnX (X= F, Cl, Br, I) compounds. Comput. Theor. Chem., 1090: 94-104.
  3. El-Kork, N., P. Moretti, B. Jacquier, F. Lei and M. Ismail, 2016. Nanohybrids near-field optical microscopy: From image shift to biosensor application. J. Nanomater., 10.1155/2016/4089260.
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  4. Al-Shawa, S., N. El-Kork, G. Younes and M. Korek, 2016. Theoretical study with dipole moment calculation of new electronic states of the molecule BF. Nanotechnol. Rev., 5: 363-368.
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  5. Shawa, S., M. Korek, G. Younes and N. El-Kork, 2015. Theoretical calculation of the low-lying electronic states of the molecule BaS. J. Mod. Phys., 6: 610-621.
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  6. Mansour, M., N. El-Kork and M. Korek, 2015. Theoretical study of the triplet electronic states of the BP molecule. J. Mod. Phys., 6: 1156-1161.
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  7. Mansour, M., N. El-Kork and M. Korek, 2015. Ab-initio calculations of 27 electronic states of the BP+ ion-molecule. J. Mod. Phys., 6: 1780-1788.
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  8. Hitt, G.W., A.F. Isakovic, O. Fawwaz, M.S. Bawa`aneh, N. El-Kork, S. Makkiyil and I.A. Qattan, 2014. Secondary implementation of interactive engagement teaching techniques: Choices and challenges in a Gulf Arab context. Phys. Rev. Spec. Top. Phys. Educ. Res., Vol. 10. 10.1103/PhysRevSTPER.10.020123.
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  9. Korek, M., N. El-Kork, A.N. Moussa and A. Bentiba, 2013. Theoretical study with rovibrational and dipole moment calculation of the LaO molecule. Chem. Phys. Lett., 575: 115-121.
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  10. Badreddine, K., N. El-Kork and M. Korek, 2013. Theoretical study with rovibrational and dipole moment calculation of the SiO molecule. J. Mod. Phys., 4: 82-93.
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  11. Badreddine, K., N. El-Kork and M. Korek, 2013. Electronic structure of the nanodiatomic compounds CdS. J. Phys. Sci. Applic., 3: 27-32.
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  12. Khalil, B., E.K. Nayla and K. Mahmoud, 2012. Electronic structure with rovibrationl and dipole moment study of the NiO molecule. J. Mod. Phys., 3: 839-849.
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  13. El-Kork, N., P. Moretti and B. Jacquier, 2011. Nanohybrids investigation by waveguide SNOM illumination mode. J. Lumin., 131: 2224-2229.
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  14. El-Kork, N., F. Huisken and C.V. Borczyskowski, 2011. Dielectric effects on the optical properties of single silicon nanocrystals. Journal of Applied Physics, Vol. 110. 10.1063/1.3642999.
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  15. Barbillon, G., A.C. Faure, N. El Kork, P. Moretti and S. Roux et al., 2007. How nanoparticles encapsulating fluorophores allow a double detection of biomolecules by localized surface plasmon resonance and luminescence. Nanotechnol., Vol. 19. .
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