Yonsei University - South Korea
Author Profile
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ORCID
🎓 Early academic pursuits
Mehdi Kheradmandfard began his academic journey in the field of materials science and engineering at the isfahan university of technology, iran, where he completed his bachelor's degree between 2001 and 2006. his early curiosity about materials characterization and modification laid the foundation for a dynamic research career. pursuing further specialization, he earned a master's degree from the same university in 2010, with a thesis focusing on the fabrication and characterization of magnesium-fluoridated hydroxyapatite nanopowders and nanostructured coatings via the sol-gel method, under the guidance of mohammad hossein fathi. this early research exposed him to the interface of nanomaterials and biomaterials—two themes that remain central to his work.
🛠️ Professional endeavors
Kheradmandfard's professional journey has spanned various prominent research institutions. from 2011 to 2014, he worked as a laboratory technician at the isfahan university of technology, gaining hands-on experience in corrosion, thermal analysis, and materials extraction. he later pursued a ph.d. in materials science and engineering at the university of tehran (2014–2018), where he investigated ultrasonic nanocrystal surface modification of β-type ti-nb-ta-zr (tntz) alloy, a project that included a visiting scholar tenure at yonsei university in south korea. after obtaining his doctorate, he continued as a postdoctoral researcher at both the university of tehran and yonsei university, holding notable fellowships including the prestigious brain pool postdoctoral fellowship (2023–present) at yonsei. in parallel, he contributed to industrial r&d management at pars tarmim company, bridging the gap between academic research and applied science.
🔬 Contributions and research focus
His research primarily explores biomaterials, nano bioceramics, advanced nano ceramics, and surface modification techniques for biomedical and energy applications. he has advanced ultrasonic nanocrystal surface modification, one of the most promising methods in creating high-performance materials with unique surface characteristics. in addition, his expertise Bone tissue engineering extends to microwave-assisted synthesis and drug delivery systems, targeting applications in bone tissue engineering and li-ion battery materials. his interdisciplinary work not only enriches materials science but also intersects with areas such as power electronics, where nanostructured materials are increasingly critical for high-efficiency energy systems.
🌍 Impact and influence
Mehdi Kheradmandfard has made a significant mark in both academia and industry. by integrating novel synthesis methods with biomedical applications, his contributions have influenced the Bone tissue engineering way researchers approach surface engineering and biomaterial design. through collaborative work in iran and south korea, he has fostered international research networks, particularly with yonsei university, where his ongoing work continues to evolve. his knowledge in advanced synthesis techniques and nanostructure coatings supports innovations not only in healthcare but also in power electronics, enabling improved device performance through material optimization.
📚 Academic citations and platforms
His Academic impact is reflected through his online scholarly presence and citation metrics. he is actively followed on major platforms:
His work is widely cited in the fields of materials science, nanotechnology, and power electronics, particularly in research focused on enhancing material performance under extreme operating conditions.
🧬 Legacy and future contributions
Mehdi Kheradmandfard is poised to continue shaping the future of materials science, particularly in areas where biocompatibility and performance are both crucial. his contributions in surface modification and nanomaterial synthesis have the potential to revolutionize biomedical devices and energy storage systems. he is also expected to further collaborate across Bone tissue engineering disciplines to introduce smart, scalable materials solutions with implications in power electronics, medical implants, and renewable energy technologies. his vision combines fundamental science with real-world applications, preparing him to be a leading figure in multidisciplinary research.
Notable Publications
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Title: Highly durable and biocompatible periodical Si/DLC nanocomposite coatings
Author(s): O.V. Penkov, M. Khadem, J.-S. Lee, M. Kheradmandfard, C.-L. Kim, S.-W. Cho, D.-E. Kim
Journal: Nanoscale
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Title: Significant improvement in cell adhesion and wear resistance of biomedical β-type titanium alloy through ultrasonic nanocrystal surface modification
Author(s): M. Kheradmandfard, S.F. Kashani-Bozorg, J.S. Lee, C.-L. Kim, A.Z. Hanzaki, Y.-S. Pyun, S.-W. Cho, A. Amanov, D.-E. Kim
Journal: Journal of Alloys and Compounds
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Title: Simultaneous grain refinement and nanoscale spinodal decomposition of β phase in Ti-Nb-Ta-Zr alloy induced by ultrasonic mechanical impacts
Author(s): M. Kheradmandfard, S.F. Kashani-Bozorg, K.-H. Kang, O.V. Penkov, A. Zarei Hanzaki, Y.-S. Pyoun, A. Amanov, D.-E. Kim
Journal: Journal of Alloys and Compounds
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Title: Ultra-fast microwave-assisted synthesis of diopside nanopowder for biomedical applications
Author(s): M. Kheradmandfard, A.H. Noori-Alfesharaki, A. Zargar-Kharazi, M. Kheradmandfard, S.F. Kashani-Bozorg
Journal: Ceramics International
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Title: Ultra-fast, highly efficient and green synthesis of bioactive forsterite nanopowder via microwave irradiation
Author(s): M. Kheradmandfard, S.F. Kashani-Bozorg, A.H. Noori-Alfesharaki, A.Z. Kharazi, M. Kheradmandfard, N. Abutalebi
Journal: Materials Science and Engineering C