Tarik EL Ouafy | Computational Methods | Best Researcher Award

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Prof. Tarik EL Ouafy | Computational Methods | Best Researcher Award

Professor at Laboratory of Engineering in Chemistry and Physics of Matter, Faculty of Medicine and Pharmacy, Sultan Moulay Slimane University, Beni Mellal, Morocco

Dr. Tarik El Ouafy, a Moroccan academician, has established himself as a dedicated educator and researcher in the field of chemistry. Currently serving as a Maître de Conférences Habilité at the Faculty of Medicine and Pharmacy, Sultan Moulay Slimane University, Béni Mellal, Dr. El Ouafy has contributed significantly to the academic and scientific communities. His journey began with a passion for understanding material sciences, leading to a distinguished career in academia. Over the years, he has earned recognition for his teaching, research, and dedication to advancing knowledge in chemistry, particularly in electrochemistry. Dr. El Ouafy is committed to fostering academic excellence and inspiring the next generation of scientists.

Professional Profile

Education

Dr. El Ouafy’s academic journey reflects his pursuit of excellence in science. He earned his Doctorate in Electrochemistry in 2015 from the Faculty of Sciences and Techniques, Béni Mellal, graduating with honors. Prior to this, he completed a Master’s in Advanced Analysis Techniques and Food Quality Control in 2010, showcasing his multidisciplinary interests. His foundation in chemistry was laid with a Bachelor’s degree in Chemistry from the Faculty of Sciences Semlalia, Marrakech. Each milestone in his education underscores his deep commitment to scientific rigor and a lifelong learning ethos.

Professional Experience

Dr. El Ouafy began his career as a secondary school educator in 2011, demonstrating his dedication to teaching. In 2016, he transitioned to higher education as an Assistant Professor at the Polydisciplinary Faculty, Khouribga, Sultan Moulay Slimane University. Over the years, he took on roles in curriculum development, delivering courses in theoretical and descriptive chemistry. His expertise and leadership were recognized with his promotion to Professor in 2020 and his habilitation in 2023. Dr. El Ouafy’s career trajectory exemplifies a seamless blend of teaching, mentorship, and administrative responsibilities.

Research Interests

Dr. El Ouafy’s research interests are rooted in electrochemistry, where he explores both organic and inorganic applications. His work intersects with advanced material science, renewable energy, and food quality control, aiming to address pressing global challenges. His interdisciplinary approach integrates theoretical insights with practical applications, contributing to innovations in sustainable technologies. By focusing on electrochemical processes and their implications, Dr. El Ouafy advances the understanding of material properties and their utilization in environmental and industrial contexts.

Awards and Honors

Throughout his career, Dr. El Ouafy has been recognized for his academic and scientific contributions. His doctoral degree was awarded with the distinction of “Très Honorable,” reflecting his exemplary research. His habilitation in 2023 further underscores his expertise and commitment to the academic community. Additionally, he has received accolades for his teaching and mentorship, reflecting his influence on students and peers alike. While his achievements in education and research are notable, there is potential for further recognition through international collaborations and publications.

Conclusion

Dr. Tarik El Ouafy is a dedicated academic with a strong teaching portfolio and a solid foundation in electrochemistry. While he has made significant strides in his academic career, his candidacy for the Best Researcher Award could be strengthened by emphasizing:

  • A robust publication record in high-impact journals.
  • Evidence of impactful research and its real-world applications.
  • Demonstrated leadership in international research collaborations.

Publications Top Noted

  • Reactivity of Isothiasole with Dibromine and Sulfuryl Chloride
    • Authors: Jalil, Z.; El Karni, E.H.; El Ouafy, T., et al.
    • Journal: Physical Chemistry Research
    • Year: 2023
    • Citations: 1
  • QSAR Modeling of Styrylquinoline Derivatives as HIV-1 Integrase Inhibitors
    • Authors: Mouhsin, M.; Chtita, S.; Mbarki, M.; El Ouafy, T.; Gamouh, A.
    • Journal: Current Chemical Biology
    • Year: 2022
    • Citations: 1
  • Molecular Docking, Spectroscopic Studies, and Simulation of the Dopamine Molecule by the DFT and MP2 Methods
    • Authors: El Ouafy, H.; Aamor, M.; Amini, L.; El Haimouti, A.; El Ouafy, T.
    • Journal: Current Chemistry Letters
    • Year: 2022
    • Citations: 2
  • Molecular Structure, Electrostatic Potential and HOMO, LUMO Studies of 4-Aminoaniline, 4-Nitroaniline, and 4-Isopropylaniline by DFT
    • Authors: El Ouafy, H.; Aamor, M.; Oubenali, M.; El Haimouti, A.; El Ouafy, T.
    • Journal: Science and Technology Asia
    • Year: 2022
    • Citations: 9
  • Investigation of Voltammetric Behavior of Herbicide N,N’-Ethylene-2,2’-Bipyridinium Using the Copper Modified Carbon Paste Electrode
    • Authors: Oubenali, M.; El Ouafy, H.; Aamor, M.; Haimouti, A.E.; El Ouafy, T.
    • Journal: Methods and Objects of Chemical Analysis
    • Year: 2022
    • Citations: 0
  • Theoretical Study of the Stability and Reactivity of Salicylic Acid Isomers by the DFT Method
    • Authors: El Ouafy, H.; Aamor, M.; Oubenali, M.; Haimouti, A.E.L.; El Ouafy, T.
    • Journal: Current Chemistry Letters
    • Year: 2022
    • Citations: 4
  • Simultaneous Electrochemical Analysis of Ibuprofen and Paracetamol by Clay Modified Carbon Paste Electrode: Analytical Application in Human Blood
    • Authors: El Ouafy, H.; Aamor, M.; Oubenali, M.; Haimouti, A.E.L.; El Ouafy, T.
    • Journal: Analytical and Bioanalytical Electrochemistry
    • Year: 2022
    • Citations: 6
  • Analytical Determination of Paracetamol in Human Blood by Improving the Catalytic Effect of a Clay-Based Electrode
    • Authors: El Ouafy, H.; Oubenali, M.; Mbarki, M.; Haimouti, A.E.L.; El Ouafy, T.
    • Journal: Analytical and Bioanalytical Electrochemistry
    • Year: 2021
    • Citations: 2
  • Electrochemical Evaluation of the Catalytic Effect of Natural Phosphate on the Oxidation of Ascorbic Acid: Analytical Application in Human Blood
    • Authors: El Ouafy, H.; El Ouafy, T.; Oubenali, M.; Mbarki, M.; Echajia, M.
    • Journal: Physical Chemistry Research
    • Year: 2021
    • Citations: 3
  • Electrochemical Analysis of Oxytetracycline via the Reaction of Azo Coupling by Aniline
    • Authors: El Ouafy, H.; El Ouafy, T.; El Haimouti, A.; EL Mhammedi, M.A.
    • Journal: Research Journal of Chemistry and Environment
    • Year: 2021
    • Citations: 1

 

Abeer Aly | Computational Methods | Best Researcher Award

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Dr. Abeer Aly | Computational Methods | Best Researcher Award

Dr. abeer aly, higher canal institute of engineering and technology, Egypt

Dr. abeer aly is a seasoned academic and researcher with a Ph.D. in Theoretical Physics from Mansoura University, Egypt. With extensive teaching and administrative experience, she has held pivotal roles in various higher education institutions. Her research interests lie in the computational analysis of electronic and magnetic material properties, and she has significantly contributed to solid-state physics and theoretical modeling. Currently, she is affiliated with the Higher Technological Institute, New Heliopolis, where she continues her academic and research endeavors.

PROFILE

Scopus  Profile

Orcid Profile 

Google Scholar profile

Educational Detail

Dr. abeer aly earned her Ph.D. in Physics (Theoretical Physics) from Mansoura University at Damietta in 2010, with a thesis focusing on Ab initio calculation of electronic and magnetic properties of RCo5 compounds. She completed her M.Sc. in Solid-State Physics in 2005 from Helwan University, where her research explored the electronic structure of materials using energy band calculation methods. Her academic journey began with a B.Sc. in Computer Science and Physics in 2000 from Helwan University, where she achieved an excellent grade in her graduation project on magnetic properties and database systems.

Professional Experience

Dr. abeer aly has over two decades of experience in academia, spanning teaching, research, and administrative roles. Currently, she serves at the Higher Technological Institute, New Heliopolis, Cairo. She previously held positions at the Higher Institute of Engineering, Automotive and Energy Technology, and the Higher Institute of Engineering and Technology. Notably, she served as Head of the Basic Science Department at El-Salam Institute (2018–2022) and contributed as a lecturer at several institutions, including October 6 University, El-Shorouk Academy, and Arab Open University.

Dr. aly has also excelled in administrative roles, such as Editorial Manager of a scientific journal and Head of Faculty Affairs for Scientific Research at Modern Academy. She has experience in curriculum coordination and department leadership, particularly in physics, mathematics, and computer science.

Research Interest

Dr. abeer aly’s research focuses on the theoretical analysis of electronic and magnetic properties of materials, particularly using ab initio and energy band calculation methods. Her work delves into the study of solid-state physics, magnetism, and the computational modeling of material properties, contributing to advancements in material science and theoretical physics.

Top Notable Publications

Structural, Electronic, and Mechanical Insights into Rb₂B’AgBr₆ (B’ = Ga, Al, In) Double Perovskites: Pathways to Lead-Free Optoelectronics

Authors: Gil Rebaza, A.V., Shankar, A., Aly, A.E.

Journal: Chemical Physics, Year: 2025, Volume: 591, Article: 112565

Citations: 0

Study of the Mechanical Properties of OsS₂ and Its Enhanced Optoelectronic Performance under Fe/Ru Doping

Authors: Thapa, B., Shankar, A., Aly, A.E., Patra, P.K.

Journal: Computational and Theoretical Chemistry, Year: 2024, Volume: 1233, Article: 114496

Citations: 0

Modulation of the Optoelectronic Properties of CdSe₂

Authors: Thapa, B., Patra, P.K., Aly, A.E., Das, M., Shankar, A.

Journal: Computational Condensed Matter, Year: 2022, Volume: 33, Article: e00745

Citations: 0

Experimental and Theoretical Investigation of Electronic and Optical Properties of CuAlₓGa₁₋ₓTe₂

Authors: Kassaa, A., Benslim, N., Otmani, A., Shankar, A., Aly, A.E.

Journal: Chemical Physics Letters, Year: 2022, Volume: 807, Article: 140086

Citations: 0

Magnetic and Optical Properties of Perovskite-Graphene Nanocomposites LaFeO₃-rGO: Experimental and DFT Calculations

Authors: Abdel-Aal, S.K., Aly, A.E., Chanduví, H.H.M., Atteia, E., Shankar, A.

Journal: Chemical Physics, Year: 2020, Volume: 538, Article: 110874

Citations: 21

Half-Metallicity in New Heusler Alloys Mn₂ScZ (Z = Si, Ge, Sn)

Authors: Ram, M., Saxena, A., Aly, A.E., Shankar, A.

Journal: RSC Advances, Year: 2020, Volume: 10(13), Pages: 7661–7670

Citations: 61

Study of Half-Metallicity, Structural and Mechanical Properties in Inverse Heusler Alloy Mn₂ZnSi₁₋ₓGeₓ and a Superlattice

Authors: Ram, M., Saxena, A., Aly, A.E., Shankar, A.

Journal: RSC Advances, Year: 2019, Volume: 9(63), Pages: 36680–36689

Citations: 9

Electronic and Piezoelectric Properties of Half-Heusler Compounds: A First Principles Study

Authors: Rai, D.P., Sandeep, Shankar, A., Patra, P.K., Thapa, R.K.

Journal: Journal of Physics: Conference Series, Year: 2016, Volume: 765(1), Article: 012005

Citations: 14

Electronic Band Structure and Spin-Density Maps of SmCo₅

Authors: Yehia, S., Aly, S.H., Aly, A.E.

Journal: Computational Materials Science, Year: 2008, Volume: 41(4), Pages: 482–485

Citations: 13

Conclusion

Dr. Abeer Aly’s strong academic background, extensive research contributions, and leadership experience position her as a highly suitable candidate for the Research for Best Researcher Award. Her expertise in computational and theoretical physics, combined with her dedication to academic and administrative excellence, align perfectly with the award’s criteria.