Nour-eddine Lazar | Material Synthesis and Engineering | Best Researcher Award

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Dr. Nour-eddine Lazar | Material Synthesis and Engineering | Best Researcher Award

Research Engineer at University Mohammed VI Polytechnic, Morocco

Dr. Nour-eddine Lazar is a materials scientist specializing in ferroelectric materials, photocatalysis, microbial fuel cells, and environmental chemistry. He earned his Ph.D. in Material Sciences and Environment (2019–2024) from ENSAM – Mohammed V University in Rabat, where his thesis focused on the performance of ferroelectric materials as photocatalysts in microbial fuel cells. He previously completed a Master’s degree in Materials Chemistry (2016–2018) at the Faculty of Sciences, Mohammed V University, working on ammonium sulphate fabrication as fertilizer and the valorisation of rare earth elements in phosphogypsum, followed by a Bachelor’s degree in General Chemistry (2013–2016) focused on physics, chemistry, and leachate treatment using natural adsorbents. Since April 2025, he has been conducting an internship at the University of Hassan II in Mohammedia on fertilizer formulation and analysis, after previously completing over 240 hours of practical teaching at both the University of Hassan II in Mohammedia and ENSAM Rabat. His research experience includes a COST Action project at the Technical University of Liberec, Czech Republic (2024), optimizing microbial fuel cell performance through advanced modified electrodes, and a Virtual Mobility internship between Sapienza University of Rome and Mohammed V University (2024) focused on modeling and experimentation of microbial fuel cells with varied volumes. Earlier, he completed internships at OCP Jorf Lasfar (2018), studying rare earth balance in ammonium sulphate manufacture, and at the National School of Mines in Rabat (2016), working on leachate treatment using natural adsorbents. He has presented his work at numerous international conferences, including MCSS Rabat (2021), 7JSNES Casablanca (2022), SPIN El Jadida (2022), ICAISSD Rabat (2022), and the Green Deal Implementation Conference in Poland (2023). Dr. Lazar has been recognized with multiple awards and grants, including 2nd place in an environmental competition (2022), an STSM COST Action Horizon grant (2024), and a Virtual Mobility COST grant (2024). He has authored 9 scientific documents, accumulated 139 citations from 107 citing documents, and holds an h-index of 7, reflecting his growing influence in materials chemistry, environmental technologies, and sustainable energy research.

Profiles: Scopus | Orcid 

Featured Publications

Allali, F., Kara, K., Elmazouzi, S., Lazar, N., Tajounte, L., Touach, N., Benzaouak, A., Lotfi, E. M., Lahmar, A., & Liotta, L. F. (2025). Effect of incorporation of Mg on LiTa0.6Nb0.4O3 photocatalytic performance in air-cathode MFCs for bioenergy production and wastewater treatment. Nanomaterials, 15(24), 1837.

Lazar, N.-E., Mazkad, D., Moussadik, A., El Habib Hitar, M., Benzaouak, A., Touach, N., Nicolle, J., Cagnon, B., Yalcinkaya, F., Riadi, Y., & others. (2024). High-performance ferroelectric photocatalysts for rapid dye degradation: ZrO₂-doped LiTa0.5Nb0.5O₃ under solar UV light. Journal of Sol-Gel Science and Technology.

Moussadik, A., Mazkad, D., Lazar, N.-E., Benzaouak, A., Abrouki, Y., Kacimi, M., Halim, M., Tielens, F., & El Hamidi, A. (2024). Self-grown Ag₂O nanoparticles on Ag-NASICON material for efficient visible light photocatalysis. Optical Materials, 146, 114803. h

Benkaddour, S., El Ouahabi, I., Essoufy, M., Hiyane, H., Lazar, N., Saufi, H., Slimani, R., Shalaby, N. F., Riadi, Y., & Abdel-Gawad, S. A. (2024). Biosorption of Basic Yellow 28 dye onto watermelon seeds. Part II: Modeling and optimization by response surface methodology. Green Chemistry Letters and Reviews.

Lazar, N., Mazkad, D., Kharti, H., Yalcinkaya, F., Pietrelli, A., Ferrara, V., Touach, N., Benzaouak, A., El Mahi, M., & Lotfi, E. M. (2024). Maximizing power generation in single-chamber microbial fuel cells: The role of LiTa0.5Nb0.5O₃/g-C₃N₄ photocatalyst. Materials for Renewable and Sustainable Energy.

Mazkad, D., El Idrissi, A., Marrane, S. E., Lazar, N., El Ouardi, M., Dardari, O., Channab, B.-E., Layachi, O. A., Farsad, S., & Baqais, A., et al. (2024). An innovative diatomite–polypyrrole composite for highly efficient Cr(VI) removal through optimized adsorption via surface response methodology. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 671, 133172.

Moussadik, A., Lazar, N.-E., Mazkad, D., Siro Brigiano, F., Baert, K., Hauffman, T., Benzaouak, A., Abrouki, Y., Kacimi, M., & Tielens, F., et al. (2023). Investigation of electronic and photocatalytic properties of AgTi₂(PO₄)₃ NASICON-type phosphate: Combining experimental data and DFT calculations. Journal of Photochemistry and Photobiology A: Chemistry, 434, 114289.

Abdul Haseeb | Engineering | Best Researcher Award

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Mr. Abdul Haseeb | Engineering | Best Researcher Award

Mr. Abdul Haseeb | University of Engineering and Technology | Pakistan

Mr.  Abdul Haseeb is a passionate and dedicated mechanical engineering student at the University of Engineering and Technology, Mardan. He strives to combine theoretical knowledge with practical skills to design innovative mechanical systems. Being fluent in English, Urdu, and Pushto, and with basic proficiency in Russian, Abdul excels in collaborating across diverse environments. His commitment to continuous learning, teamwork, and hands-on engineering makes him a promising young talent in the field. Whether solving complex mechanical problems or experimenting with equipment, Abdul approaches every challenge with enthusiasm and a strong drive for excellence.

Profile

Orcid

Education

Mr. Abdul is currently pursuing a degree in Mechanical Engineering at the University of Engineering and Technology, Mardan, where he has developed expertise in CAD design and engineering principles. Prior to this, he completed his FSc at Government Post Graduate College, Mardan, where he strengthened his leadership skills as a class representative. His academic foundation began at Army Public School and College, where he actively participated in debates, science fairs, and community-building activities. These experiences have shaped his analytical thinking, problem-solving abilities, and passion for mechanical innovation.

Experience

Although in the early stages of his professional journey, Abdul has built a strong technical foundation through academic projects and personal initiatives. His experience includes working with CAD tools such as SolidWorks and AutoCAD, performing engineering analysis in areas like statics, dynamics, and thermodynamics, and applying programming skills in C language. His growing expertise in simulations and research equips him to handle academic and industry-related challenges effectively. Through consistent learning and practice, Abdul continues to strengthen his practical knowledge and technical confidence, preparing for future engineering opportunities.

Research Interest

Mr. Abdul’s research interests are centered on mechanical systems design, CAD modeling and simulation, and the creation of sustainable and efficient mechanical solutions. He is intrigued by integrating engineering design with computational tools and programming to solve real-world challenges. His curiosity extends to automation and robotics, where he aims to explore advanced simulation and optimization techniques. Abdul aspires to contribute to innovative research that bridges traditional mechanical engineering principles with modern digital advancements, driving progress in the field.

Awards

Mr. Abdul has been recognized for his academic excellence, leadership, and extracurricular engagement throughout his education. At the university, his performance in CAD earned high distinction. In college, he served as a class representative, demonstrating leadership and organizational skills. During his school years, he actively participated in debates, speeches, and science exhibitions, gaining recognition for his innovative thinking and teamwork. These achievements reflect his adaptability, determination, and commitment to continuous personal and academic growth.

Publication 

Title: Drone Frame Optimization via Simulation and 3D Printing
Authors: Faris Kateb, Abdul Haseeb, Syed Misbah-Un-Noor, Bandar M. Alghamdi, Fazal Qudus Khan, Bilal Khan, Abdul Baseer, Masood Iqbal Marwat, Sadeeq Jan
Journal: Computers – MDPI

Conclusion

Mr. Abdul Haseeb represents the qualities of a dedicated learner and emerging mechanical engineer. With a strong academic foundation, practical technical skills, and a vision for innovative solutions, he is well-prepared to make meaningful contributions to the field. His adaptability, collaborative approach, and passion for continuous growth position him as a future leader in mechanical engineering. As he progresses in his academic and professional journey, Abdul remains committed to using his skills to create impactful engineering solutions that benefit both industry and society.