Dr. Mourad Smari | Dielectric materials | Best Researcher Award

Dr. Mourad Smari, Sharjah university, United Arab Emirates

Dr. Mourad Smari is a distinguished researcher at the Center for Advanced Materials Research, University of Sharjah, UAE. His work specializes in the synthesis and characterization of magnetic and dielectric materials, with applications in energy, electronics, and magnetocalorics. Dr. Smari has contributed extensively to the study of manganites, ferrites, and spinel oxides, earning over 200 citations for key publications. He is committed to advancing material science and fostering collaboration across disciplines. ✨🔬

Professional Profile:

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Suitability Summary

Dr. Mourad Smari’s contributions to materials science, particularly in magnetic and dielectric materials, make him an outstanding candidate for a Best Researcher Award. His innovative research, significant scholarly impact, and commitment to advancing interdisciplinary collaboration underline his excellence in the field. Recognizing Dr. Smari would not only honor his accomplishments but also inspire future advancements in materials science and its applications. 🌟

Education and Experience

🎓 Ph.D. in Materials Science and Engineering
🏫 Researcher at the Center for Advanced Materials Research, University of Sharjah, UAE.
🧑‍🔬 Experienced in studying ferrites, manganites, and spinel oxides with cutting-edge methodologies.

Professional Development

Dr. Mourad Smari has actively contributed to the field of advanced materials through innovative research on magnetic and spectroscopic properties. His expertise in manganites and spinel oxides has led to significant advancements in energy and electronics applications. Dr. Smari frequently engages in collaborative projects, fostering interdisciplinary innovation. With a strong focus on the magnetocaloric effect, his work bridges theoretical understanding and practical applications. 🌍🔬

Research Focus

Dr. Smari’s research is centered on the exploration of magnetic and dielectric materials, focusing on their structural, optical, and electrical properties. He has made notable contributions to the development of manganites, ferrites, and spinel oxides, particularly in the context of their magnetocaloric effects and conduction mechanisms. His work aims to advance technologies in energy storage, sensors, and electronics. 🔋📡

Awards and Honors

🏆 Recognized for over 200 citations in high-impact journals.
🌟 Awarded for contributions to the study of magnetic and dielectric materials.
🏅 Acknowledged for excellence in collaborative research projects.

Publication Top Notes:

📚 Magnetic and spectroscopic properties of Ni–Zn–Al ferrite spinel: from the nanoscale to microscale – Cited by: 205
📚 Conduction mechanism, impedance spectroscopic investigation and dielectric behavior of La₀.₅Ca₀.₅₋ₓAgₓMnO₃ manganites – Cited by: 195
📚 Structural, magnetic and magnetocaloric properties of Ag-doped La₀.₅Ca₀.₅₋ₓAgₓMnO₃ compounds – Cited by: 82
📚 Investigation of structural, optical, elastic, and electrical properties of spinel LiZn₂Fe₃O₈ nanoparticles – Cited by: 70
📚 Electric–dielectric properties and complex impedance analysis of La₀.₅Ca₀.₅₋ₓAgₓMnO₃ manganites – Cited by: 63, Year