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Prof Dr. Mohamed Henini, University of Nottingham, United Kingdom, Physics and Astronomy, Best Researcher Award

Bio Summary:

Prof. Dr. Mohamed Henini, a distinguished physicist, holds the position of Professor of Applied Physics at the University of Nottingham, UK. With a background in Technical Mathematics and a Ph.D. in Solid State Physics, he has been a key figure in the field for decades. Prof. Henini’s illustrious career includes roles such as Research Officer and Senior Experimental Officer, showcasing his commitment to scientific exploration. Notable for receiving the “Outstanding Research Supervisor 2023” award, he is also recognized as a Fellow of the African Academy of Sciences. His extensive research contributions, spanning over 930 publications, delve into nanoscience and nanotechnology, covering topics from quantum dots to superconductors. Beyond his academic pursuits, Prof. Henini actively engages in international collaborations, serving on evaluation panels and contributing to conferences. His career stands as a testament to his dedication to advancing physics and nurturing a thriving research community.

Professional Profile:

🎓 Education:

Prof. Dr. Mohamed Henini’s educational journey is marked by a strong foundation in technical mathematics and a subsequent focus on electronics and solid-state physics. Here are the key milestones in his academic qualifications:

Baccalaureat (1975):

  • Technical Mathematics
  • Lycee les Palmiers, Oran, Algeria

Master of Philosophy (1979):

  • Electronics
  • University of Oran, Algeria

Doctor of Philosophy (1984):

  • Solid State Physics
  • University of Nottingham, Department of Electrical & Electronics Engineering, UK

Prof. Henini’s academic path reflects a progression from foundational mathematics to advanced studies in electronics and solid-state physics, culminating in a Ph.D. that positioned him at the forefront of his field.

Publication Top Noted:

Carrier thermal escape and retrapping in self-assembled quantum dots

  • Authors: S Sanguinetti, M Henini, MG Alessi, M Capizzi, P Frigeri, S Franchi
  • Published in Physical Review B, 1999
  • Cited 406 times

Photodegradation of organic pollutants RhB dye using UV simulated sunlight on ceria based TiO2 nanomaterials for antibacterial applications

  • Authors: K Kasinathan, J Kennedy, M Elayaperumal, M Henini, M Malik
  • Published in Scientific Reports, 2016
  • Cited 393 times

Paramagnetic Meissner effect in small superconductors

  • Authors: AK Geim, SV Dubonos, JGS Lok, M Henini, JC Maan
  • Published in Nature, 1998
  • Cited 339 times

Real‐time scanning Hall probe microscopy

  • Authors: A Oral, SJ Bending, M Henini
  • Published in Applied Physics Letters, 1996
  • Cited 329 times

Two-dimensional electrons in a lateral magnetic superlattice

  • Authors: HA Carmona, AK Geim, A Nogaret, PC Main, TJ Foster, M Henini, and others
  • Published in Physical Review Letters, 1995
  • Cited 316 times

Dilute nitride semiconductors

  • Author: M Henini
  • Published in Elsevier, 2004
  • Cited 310 times

Probing the hole dispersion curves of a quantum well using resonant magnetotunneling spectroscopy

  • Authors: RK Hayden, DK Maude, L Eaves, EC Valadares, M Henini, FW Sheard, and others
  • Published in Physical Review Letters, 1991
  • Cited 277 times

Resonant tunneling through the bound states of a single donor atom in a quantum well

  • Authors: MW Dellow, PH Beton, C Langerak, TJ Foster, PC Main, L Eaves, and others
  • Published in Physical Review Letters, 1992
  • Cited 254 times


Prof. Henini’s impact goes beyond academia, participating in outreach activities and contributing to international networks focused on nano and micro photonics technologies. His dedication to research, teaching, and service reflects a career marked by excellence and a passion for advancing scientific knowledge.


🏆 Prof. Henini’s honors include being a Fellow of the African Academy of Sciences and participating in various international committees and evaluations. Notably, he played a vital role in evaluating research proposals for the European Union and the Engineering and Physical Sciences Research Council.

Research Focus:

Prof. Dr. Mohamed Henini’s research focuses on the exploration of low-dimensional structures and devices, particularly those grown through molecular beam epitaxy (MBE). His extensive contributions span various aspects of solid-state physics, epitaxial semiconductors, and the growth, characterization, and exploitation of III-V compound semiconductors. Prof. Henini’s expertise lies in the development and analysis of semiconductor nanostructures, contributing to advancements in quantum materials and molecular beam epitaxy.

His work is not only characterized by numerous publications but also includes a patent on “Excitonic Bose-Einstein Condensate (BEC) As Qubits Using Semiconductor Nanostructures For Quantum Technologies.” This patent showcases his involvement in cutting-edge research with potential applications in quantum technologies.

Overall, Prof. Henini’s research endeavors demonstrate a commitment to advancing the understanding of condensed matter physics and the practical applications of semiconductor nanostructures, marking him as a prominent figure in the field.


Mohamed Henini | Physics and Astronomy | Best Researcher Award

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