Professor at Faculty of sciences fez, Morocco
Ibrahim Maouhoubi is a 26-year-old Moroccan researcher specializing in the physics of nanomaterials for energy applications. With a strong academic background in engineering physics, he has gained extensive experience in solid-state physics and optoelectronics. Fluent in Arabic, English, and French, Ibrahim combines his technical skills in programming and numerical methods with his passion for renewable energy. He actively contributes to the academic community as a reviewer for various scientific journals and serves in editorial roles at international congresses. Ibrahim is committed to advancing the understanding of quantum materials and their applications in energy efficiency.
Profile:
Education:
Ibrahim completed his PhD in Engineering Physics at the University of Sidi Mohamed Ben Abdellah in Fez, Morocco, focusing on the optoelectronic properties of quantum structures. His research was supervised by notable professors, and he achieved a very honorable GPA. He holds a Master’s degree in Engineering Physics and a Bachelor’s in Physics from the same university, as well as a year of study in Acoustic Physics in France. Additionally, he is pursuing a Bachelor’s in Mathematics and Computer Science. His educational journey reflects his dedication to both theoretical and practical aspects of physics.
Professional experience:
Ibrahim has garnered significant research and teaching experience. As a research assistant in the LPS laboratory at his university, he contributed to multiple studies on nanomaterials. He served as a teaching assistant for courses in materials physics and solar energy, helping to educate the next generation of physicists. His role as a reviewer for journals such as the Journal of Organic & Inorganic Chemistry showcases his active engagement in the academic community. Furthermore, he has participated in international congresses as an editor and moderator, demonstrating his commitment to disseminating research findings and collaborating with global peers.
Research focus:
Ibrahim’s research primarily explores the optoelectronic properties of nanomaterials, particularly focusing on quantum disks and their applications in renewable energy. His doctoral thesis examined the effects of external factors on impurity-related electronic properties in GaAs quantum structures, contributing to advancements in photonics applications. He is actively involved in optimizing photovoltaic systems using quantum nanostructures, exploring factors such as temperature and electromagnetic fields to enhance energy conversion efficiency. Ibrahim’s work aims to bridge theoretical physics with practical applications in clean energy, positioning him as a significant contributor to the field of nanomaterials and renewable technologies.
Awards and Honors:
Throughout his academic career, Ibrahim has received several awards recognizing his excellence. He earned a merit award for outstanding performance in his Baccalaureate, demonstrating early academic prowess. In 2018, he was honored with a championship prize in the national university football competition. Additionally, he was a finalist in the prestigious MT180s competition, showcasing his ability to communicate complex scientific concepts effectively. These accolades reflect his dedication to both academic and extracurricular pursuits, highlighting his well-rounded profile as a student and researcher.
Publication Top Notes:
- Title: The electric and magnetic field effects on the optical absorption in double QWs with squared, U-shaped and V-shaped confinement potentials
Authors: R. En-nadir, H. El-ghazi, H. Abboudi, I. Maouhoubi, A. Jorio, I. Zorkani
Year: 2023
Citations: 13
- Title: The effects of the dielectric screening, temperature, magnetic field, and the structure dimension on the diamagnetic susceptibility and the binding energy of a donor-impurity
Authors: I. Maouhoubi, R. En-nadir, I. Zorkani, A. O. Tayebi Hassani, A. Jorio
Year: 2022
Citations: 11
- Title: Effects of applied magnetic field and pressure on the diamagnetic susceptibility and binding energy of donor impurity in GaAs quantum dot considering the non-parabolicity model
Authors: I. Maouhoubi, R. En-nadir, K. El Bekkari, I. Zorkani
Year: 2023
Citations: 9
- Title: Exploring the electronic properties of shallow donor impurities in modified ∩-shaped potential: Effects of applied electric field, parabolicity, compositions, and thickness
Authors: R. En-nadir, H. El Ghazi, M. Tihtih, S. E. Zaki, W. Belaid, I. Maouhoubi
Year: 2023
Citations: 8
- Title: The effects of lateral electric field, effective-mass position-dependent, and dimension on the donor-impurity binding energy and electron-impurity distance in GaAs-based quantum disk
Authors: I. Maouhoubi, R. En-nadir, S. Maouhoubi, I. Zorkani, A. O. Tayebi Hassani, A. Jorio
Year: 2023
Citations: 7
- Title: Intrasubband-related linear and nonlinear optical absorption in single, double and triple QW: the compositions, temperature and QW’s number effects
Authors: R. En-nadir, H. El-ghazi, W. Belaid, M. Tihtih, H. Abboudi, I. Maouhoubi
Year: 2023
Citations: 7
- Title: The effects of lateral electric field and dimensionality on the electronic properties of 2D-core/shell quantum disk emerged in finite confining potential
Authors: I. Maouhoubi, O. Mommadi, R. En-nadir, S. Chouef, S. Dardaz, I. Zorkani
Year: 2023
Citations: 4
- Title: Impurity-related electronic properties in GaAs quantum disk under external excitations considering the confinement parabolicity effect
Authors: I. Maouhoubi, R. En-nadir, S. Maouhoubi, I. Zorkani, A. O. Tayebi Hassani, A. Jorio
Year: 2023
Citations: 4
- Title: Theoretical study of the non-parabolicity and size effects on the diamagnetic susceptibility of donor impurity in Si, HgS and GaAs cylindrical quantum dot and quantum disk
Authors: I. Maouhoubi, S. J. Edrissi, R. En-nadir, I. Zorkani, A. O. Tayebi Hassani
Year: 2023
Citations: 4
- Title: Analyzing the combined influences of external electric field, impurity-location, in-content, and QW’s number on donor-impurity binding energy in multiple quantum wells
Authors: R. En-nadir, H. El-ghazi, M. Tihtih, W. Belaid, S. E. Zaki, I. Maouhoubi
Year: 2023
Citations: 3