Zeshan Javed | Nanomagnetism | Best Researcher Award

Published on by Nano Technology

Mr. Zeshan Javed | Nanomagnetism | Best Researcher Award

Harbin Institute of Technology | China

Mr. Zeshan Javed is a dedicated and innovative experimental physicist and lecturer with extensive experience in condensed matter physics, specializing in the synthesis, structural, dielectric, magnetic, and spectral characterization of advanced materials such as X-type, Y-type, R-type, and U-type hexaferrites, ferrites, ceramics, and nanomaterials for high-frequency, data storage, and microwave absorption applications. His research contributions include studies on the structural, morphological, dielectric, and spectral properties of Sr-Mg-Ho X-type magnetic nanomaterials suitable for microwave absorption, structural, physicochemical, and electrical properties of Co2Y-type barium hexaferrites, and the impact of Gd-substitution on structural, dielectric, Raman, photoluminescence, and spectroscopic characteristics of Ba0.4Sr0.6Co2Fe16O27 ceramics. He has also investigated the structural, spectroscopic, Raman, photoluminescence, and electrical properties of Cd-substituted Ba–Zn R-type hexaferrites, structural, spectral, elemental, reflection loss, and dielectric multifunctional features of Sr Ni-based U-type hexagonal ferrite nanomaterials for microwave absorption, and promising X-type hexagonal ferrites for high-frequency applications. Additionally, he has explored the enrichment of structural, physical, mechanical, spectral, dielectric, and magnetic properties of Sr2Ni2Fe28O46 complex magnetic oxides via Co-In co-substitution, the impact of Sm substitution on structural, spectroscopic, microstructural, XPS, and dielectric properties of Sr3Zn2Fe24O41 Z-type hexaferrites, and multifunctional analyses of Cd-substituted Ba(Cu2)2Fe4-xCdxO11 R-type hexaferrites for enhanced data storage and high-frequency applications. His work also includes structural, physicochemical, and dielectric features of Gd3+ substituted Ba–Zn–Y hexa-ferrites for microwave absorption, electrochemical, optical, dielectric, magnetic, and absorption properties of Ho-doped Sr-Mg nano ferrites, photocatalytic degradation of tetracycline via peroxymonosulfate activation using W0.5Ag0.5FeO3, enhanced peroxymonosulfate activation by ZIF-67/Bi/Ti@NF bimetallic systems for antibiotic degradation, promising Li2 nanoferrites with eco-friendly synthesis and detailed nano-structural analyses, and remarkable energy storage performance in lead-free tungsten bronze ferroelectrics for high-temperature applications. Through these studies, Mr. Javed has advanced the understanding of magnetic and dielectric nanomaterials, providing insights for microwave devices, electromagnetic interference attenuation, sustainable water treatment, and energy storage technologies. His research integrates experimental techniques such as sol-gel auto-combustion synthesis, X-ray diffraction, FTIR, SEM, Raman spectroscopy, photoluminescence, and electrical characterization, emphasizing both fundamental understanding and practical applications of advanced functional materials.

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Featured Publications

  • Javed, Z., Rasool, R. T., Alhummiany, H., Majeed, A., Gulbadan, S., Ashraf, G. A., Al-Anazy, M., Irfan, M., Akhtar, M. N., Arshad, M., & Khan, M. A. (2024). Structural, morphological, dielectric, and spectral properties of Sr-Mg-Ho X-type magnetic nano materials suitable for microwave absorption application. Vacuum, 222, 112965.

  • Arshad, M., Khan, M. A., Rasool, R. T., Arshad, M. I., Javed, Z., Hayat, S., & Ilyas, S. Z. (2024). Structural, physicochemical and electrical properties of Co2Y-type barium hexaferrites. Ceramics International, 50(13), 23047–23057.

  • Yosif, M., Khan, M. A., Rasool, R. T., Gulbadan, S., Alhummiany, H., Junaid, M., Bayhan, Z., Javed, Z., Mahmood, K., Abdel Hafez, A. A., Irfan, M., & Akhtar, M. N. (2024). Impact of Gd-substitution on structural, dielectric, spectroscopic, Raman, and photoluminescence properties of Ba0.4Sr0.6Co2Fe16O27 ceramics. Journal of Materials Chemistry and Physics, 324, 129701.

  • Mehmood, A., Khan, M. A., Gulbadan, S., Alresheedi, N. M., Ashraf, G. A., Almashnowi, M. Y., Irfan, M., Elhosiny Ali, H., Javed, Z., & Al-Buriahi, M. S. (2025). Structural, spectral, elemental, reflection loss, and dielectric multifunctional features of Sr Ni-based U-type hexagonal ferrite nanomaterials for microwave absorption applications. Ceramics International.

  • Majeed, A., Khan, M. A., Ahmad, A., Javed, Z., Lodhi, M. Y., Khan, S., & Raheem, F. ur. (2025). Promising X-type hexagonal ferrites for high-frequency applications; synthesis and characterizations. Ceramics International.