Mohammad Reza Karampoor | Materials Science | Best Researcher Award

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Mr. Mohammad Reza Karampoor | Materials Science | Best Researcher Award

Research Assistance at Isfahan University of Technology, Iran

Mr. Mohammad Reza Karampoor is a dedicated researcher in materials science and engineering, specializing in corrosion protection, biomedical coatings, and nanomaterials. His expertise spans antibacterial surfaces, additive manufacturing, and the structure-properties relationship in advanced materials. With a strong academic foundation and an impressive publication record, he has significantly contributed to cutting-edge research in coatings for biomedical applications and self-healing materials. Mr. Karampoor has collaborated with prestigious institutions and industries, working on projects related to gas pipeline coatings, selective laser melting, and electrophoretic deposition techniques. His commitment to research is evident in his numerous ISI-indexed publications, national conference papers, and industry collaborations. As a fellow of the National Elite Foundation of Iran, he has demonstrated excellence in academia and innovation, earning multiple honors for his outstanding academic performance and research achievements.

Professional Profile

Education

Mr. Mohammad Reza Karampoor holds a Master’s degree in Materials Engineering (Corrosion) from Isfahan University of Technology (2020-2022), where he received a full scholarship and graduated with an 18.50/20 GPA. His thesis, supervised by Dr. Masoud Atapour and Dr. Abbas Bahrami, focused on developing antibacterial self-healing coatings on carbon steel. Prior to that, he earned his Bachelor’s degree in Materials Science and Engineering from Shahrekord University (2016-2020), also on a full scholarship. He maintained a 16.33/20 GPA, with an 18.52/20 average in his final semesters, and his thesis investigated the wear behavior of aluminum-based composites under the supervision of Dr. Hasan Sharifi. His academic excellence led him to secure top rankings in national competitions and entrance exams, further establishing his strong educational background in materials science.

Professional Experience

Mr. Karampoor has gained extensive research and industrial experience through various positions. He serves as a Research Assistant in the Chemical Metallurgical Laboratory at Isfahan University of Technology, contributing to advanced studies in corrosion protection and coatings. Additionally, he has worked on the Ahmadiroshan Plan, focusing on additive manufacturing (AM) equipment expansion at Behyaar Company. His industry collaborations include a project with the National Iranian Gas Company, where he developed protective coatings for gas pipelines. As a Teaching Assistant for the Advanced Corrosion Laboratory under Dr. Masoud Atapour, he has mentored students for three semesters. Moreover, he has supervised the Metallurgical Chemistry Laboratory since 2021. His research development role at Isfahan Science and Technology Town (ISTT) involved investigating boron nitride properties and applications. These experiences have strengthened his expertise in material coatings, biomedical applications, and industrial research.

Research Interests

Mr. Karampoor’s research focuses on corrosion protection, biomedical coatings, antibacterial surfaces, nanomaterials, and additive manufacturing. He has actively explored the structure-properties relationship in advanced materials, contributing to the development of self-healing and drug-releasing coatings. His work on electrophoretic deposition of bioactive glass coatings for biomedical applications has garnered significant attention. Additionally, he is interested in photocatalytic coatings, green corrosion inhibitors, and metal matrix composites. His research also extends to laser-material interactions in selective laser melting (SLM), investigating defect formation and process optimization. With a strong background in surface engineering, he aims to advance biocompatible coatings and sustainable solutions for industrial applications.

Research Skills

Mr. Karampoor possesses strong analytical and technical skills in corrosion testing, materials characterization, electrochemical techniques, and computational modeling. His expertise includes electrophoretic deposition, self-healing coatings, and nanomaterial synthesis. He is proficient in software tools such as Z-view, Origin Pro, Image J, Mendeley, Power Suite, and COMSOL Multiphysics (beginner level). His experimental skills extend to cathodic and anodic protection techniques, as well as surface analysis through microscopy and spectroscopy. His ability to integrate computational modeling with experimental research has enhanced his contributions to biomedical coatings and additive manufacturing.

Awards and Honors

Mr. Karampoor has received numerous awards recognizing his academic and research excellence. He was named an Outstanding Student at Isfahan University of Technology (2024) and was a Fellow of the National Elite Foundation of Iran (2022) with an exceptional score of 285. He ranked first in his master’s program at Isfahan University of Technology (2022) and secured 5th place in the 25th National Student Olympiad (2021). During his undergraduate studies, he was among the Top 10% of Graduated Students at Shahrekord University (2020) and ranked in the Top 1% of candidates in the national master’s entrance exam (2020). His achievements highlight his dedication to research, innovation, and academic excellence.

Conclusion

Mr. Mohammad Reza Karampoor is an accomplished researcher with a strong academic record, extensive research contributions, and a passion for advancing materials science and engineering. His expertise in corrosion protection, biomedical coatings, and additive manufacturing has led to impactful research in both academia and industry. With multiple ISI-indexed publications, national conference papers, and industrial collaborations, he has demonstrated excellence in innovation and applied research. His honors, including the National Elite Foundation Fellowship and top rankings in academic competitions, reflect his commitment to scientific advancement. Given his extensive experience, research achievements, and strong technical expertise, Mr. Karampoor is a highly suitable candidate for the Best Researcher Award.

Publications Top Notes

  • Preparation of an anti-bacterial CuO-containing polyurea-formaldehyde/linseed oil self-healing coating

    • Authors: MR Karampoor, M Atapour, A Bahrami
    • Year: 2023
    • Citations: 8

  • Electrophoretic deposition of ZnO-containing bioactive glass coatings on AISI 316L stainless steel for biomedical applications

    • Authors: F Heidari Laybidi, A Bahrami, MS Abbasi, M Rajabinezhad, …
    • Year: 2023
    • Citations: 7

  • Towards an antibacterial self‐healing coating based on linseed oil/ZnO nanoparticles repair agent, encapsulated in polyurea formaldehyde microcapsules

    • Authors: MR Karampoor, A Bahrami, M Atapour
    • Year: 2024
    • Citations: 2

  • The promising application of pectin/ɛ-polylysine as coating material on anodized titanium surfaces for orthopedic implants: Preparation, characterization and biomedical properties

    • Authors: FH Laybidi, A Bahrami, MS Abbasi, MA Mokhtari, MJ Dehkordi, …
    • Year: 2025
    • Citations: 1

  • Visible light photocatalytic efficiency and corrosion resistance of Zn, Ni, and Cu-doped TiO2 coatings

    • Authors: M Khalaghi, M Atapour, MM Momeni, MR Karampoor
    • Year: 2025

  • Effects of humidity, ionic contaminations and temperature on the degradation of silicone-based sealing materials used in microelectronics

    • Authors: M Yazdan Mehr, P Hajipour, MR Karampoor, HW van Zeijl, WD van Driel, …
    • Year: 2025

  • Effects of humidity, ionic contaminations and temperature on the degradation of silicone-based sealing materials used in microelectronics

    • Authors: MY Mehr, P Hajipour, MR Karampoor, H van Zeijl, WD van Driel, …
    • Year: 2025

  • Investigating the inhibitory effect of Silybum Marianum Oil (SMO) on commercial pure copper as a Green Inhibitor in 1.0 M HCl

    • Authors: MRK Masoud Atapour
    • Year: 2022

  • Investigation and introduction of defects caused by the interaction of laser and iron powder in the process of selective laser melting

    • Authors: AS Matin Mahmoudi, Shiva Karimi, Omid Mohseni, Farnaz Heidari, Sotoudeh …
    • Year: 2022

  • Modeling the interaction of laser and iron powder to estimate the temperature distribution and size of the molten pool in the selective laser melting process

    • Authors: RE Mohammad Reza Karampoor, Farnaz Heidari, Sotoudeh Heidarpour, Matin …
    • Year: 2022

 

Yutaka Matsuura | Materials Science | Best Researcher Award

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Dr. Yutaka Matsuura | Materials Science | Best Researcher Award

Senior Fellow at Research Institute for Applied Sciences, Japan

Yutaka Matsuura is a distinguished researcher and engineer known for his pioneering work in the development of NdFeB sintered magnets, which are essential for a wide range of applications, from electronics to renewable energy. As an inventor, Matsuura played a crucial role in establishing the NdFeB ternary phase diagram, a fundamental breakthrough that has significantly advanced the magnetic material industry. His research also led to innovations in magnet production processes, including hydrogen decrepitation and dehydrogenation methods, which greatly improved the efficiency and quality of NdFeB magnets. Throughout his career, Matsuura has been instrumental in developing high-performance magnets by introducing Dy-substituted magnets to enhance coercive force. His expertise spans both the scientific and industrial sectors, having worked in research and development, production, and marketing. His contributions have shaped the global magnet industry, making him a leading figure in material science. Matsuura’s extensive patent portfolio and leadership in key industrial roles have solidified his reputation as a trailblazer in the field of permanent magnets.

Professional Profile

Education:

Yutaka Matsuura’s academic journey has been rooted in engineering and material science. He earned his Doctor of Engineering from Kyoto University in 1987, where his doctoral thesis focused on the study of NdFeB sintered magnets. This pivotal work set the foundation for his lifelong dedication to magnet research. Prior to this, Matsuura completed his Master’s degree in Science at Okayama University in 1977, following his undergraduate studies at the same institution. His education provided him with the deep scientific understanding and technical expertise that would later define his career in magnet technology. Matsuura’s academic training has played a vital role in his ability to innovate and lead groundbreaking research in material science, particularly in the domain of magnetic materials.

Professional Experience:

Yutaka Matsuura’s professional experience spans over several decades and encompasses both academic and industrial roles. Currently, he serves as a Research Fellow at the Research Institute for Applied Sciences, where he continues to advance his work in material science. His career trajectory includes leadership positions at renowned companies such as Hitachi Metals Ltd., where he served as Chief Engineer and Division President, and NEOMAX Co., Ltd., where he led the Magnetic Material Laboratories. Matsuura’s industrial experience has allowed him to bridge the gap between research and practical application, particularly in the development of advanced NdFeB sintered magnets. His roles in marketing, technical support, and R&D have contributed significantly to the global spread of NdFeB magnets, especially in industries like automotive and energy. Matsuura’s work with Sumitomo Special Metals, Kinki-Sumitoku Electronics, and other organizations has solidified his status as a key figure in the permanent magnet industry.

Research Interests:

Yutaka Matsuura’s primary research interests lie in the field of material science, with a specific focus on permanent magnets, particularly NdFeB sintered magnets. His work explores the development of high-performance magnets with enhanced coercive force, critical for a wide range of applications, including electric vehicles and renewable energy technologies. Matsuura’s research has contributed to understanding the coercive force mechanism of NdFeB magnets and the effects of rare-earth substitutions, such as Dy, on their magnetic properties. His studies have also led to the establishment of the NdFeB ternary phase diagram, a cornerstone in the synthesis and optimization of these magnets. Beyond material development, Matsuura is interested in refining the production processes of NdFeB magnets, including methods such as hydrogen decrepitation, to improve efficiency and sustainability. His work also addresses challenges such as reducing the reliance on rare-earth elements like Dy, thereby advancing both the scientific and environmental aspects of magnet technology.

Research Skills:

Yutaka Matsuura possesses a broad set of research skills, underpinned by decades of experience in material science, engineering, and industrial R&D. He is highly skilled in developing and optimizing production processes for NdFeB sintered magnets, including hydrogen decrepitation and dehydrogenation techniques. His ability to conduct fundamental research on the coercive force mechanism of magnets has been central to his work. Matsuura’s expertise extends to the creation of phase diagrams, specifically the NdFeB ternary system, which has been integral to understanding the properties of rare-earth magnets. His proficiency in experimental research, coupled with his deep knowledge of magnetic materials, allows him to innovate in the development of high-performance permanent magnets. Furthermore, Matsuura’s extensive patent portfolio reflects his ability to translate research findings into practical, industrial applications. His technical skills are complemented by a strong understanding of market dynamics, enabling him to effectively lead product development and global marketing efforts in the magnet industry.

Awards and Honors:

Throughout his career, Yutaka Matsuura has received numerous accolades that recognize his contributions to material science and magnet technology. Notably, he holds several patents in the field of permanent magnets, including groundbreaking patents on the production of NdFeB sintered magnets and methods for enhancing coercive force. His work on NdFeB magnets, particularly the development of Dy-substituted magnets, has earned him recognition as a leading figure in the industry. Matsuura’s achievements have not only advanced scientific knowledge but have also had a significant impact on the industrial applications of magnetic materials. His patents have contributed to the commercialization of high-performance permanent magnets used in a wide array of technologies, cementing his position as an innovator. Matsuura’s extensive career in both research and industry has been marked by numerous professional milestones, showcasing his leadership and dedication to advancing the field of material science.

Conclusion:

Yutaka Matsuura’s career is a testament to his exceptional contributions to the field of material science, particularly in the development of high-performance NdFeB sintered magnets. His groundbreaking research on the coercive force mechanism and the creation of the NdFeB ternary phase diagram has had a lasting impact on the magnet industry. Matsuura’s innovative production techniques, including hydrogen decrepitation, have revolutionized the manufacturing process for these magnets, making them more efficient and sustainable. His extensive patent portfolio and leadership roles in major companies highlight his ability to bridge the gap between scientific research and industrial application. While his contributions have already had a profound impact on technology, there is potential for further growth in exploring sustainable methods and interdisciplinary collaborations. Matsuura’s career exemplifies the qualities of a leading researcher, making him a deserving candidate for recognition in the field of material science and engineering.

Publication Top Notes

  1. Title: Demagnetization processes of Nd-Fe-B sintered magnets and ferrite magnets as demonstrated by soft X-ray magnetic circular dichroism microscopy
    • Authors: Matsuura, Y., Ishigami, K., Tamura, R., Nakamura, T.
    • Journal: Journal of Magnetism and Magnetic Materials
    • Citations: 2
    • Year: 2023
  2. Title: Demagnetization of Nd-Fe-B Sintered and Ferrite Magnets Derived from Magnetic Measurements
    • Authors: Matsuura, Y.
    • Conference: 2023 IEEE International Magnetic Conference – Short Papers, INTERMAG Short Papers 2023 – Proceedings
    • Year: 2023
  3. Title: Alignment and angular dependences of coercivity for (Sm,Ce)2(Co,Fe,Cu,Zr)17 magnets
    • Authors: Matsuura, Y., Tamura, R., Ishigami, K., Kajiwara, K., Nakamura, T.
    • Journal: Materials Transactions
    • Year: 2021
  4. Title: Magnetization reversal of (Sm, Ce)2(Co, Fe, Cu, Zr)17 magnets as per soft x-ray magnetic circular dichroism microscopy
    • Authors: Matsuura, Y., Maruyama, R., Kato, R., Kajiwara, K., Nakamura, T.
    • Journal: Applied Physics Letters
    • Citations: 2
    • Year: 2020
  5. Title: Coercivity Mechanism of Ga-Doped Nd-Fe-B Sintered Magnets
    • Authors: Matsuura, Y., Nakamura, T., Ishigami, K., Nagae, M., Osamura, K.
    • Journal: IEEE Transactions on Magnetics
    • Citations: 3
    • Year: 2019
  6. Title: Coercivity mechanism of SrOFe2O3 ferrite magnets
    • Authors: Matsuura, Y.
    • Journal: IEEE Transactions on Magnetics
    • Citations: 2
    • Year: 2018
  7. Title: Angular dependence of coercivity in isotropically aligned Nd-Fe-B sintered magnets
    • Authors: Matsuura, Y., Nakamura, T., Sumitani, K., Tamura, R., Osamura, K.
    • Journal: AIP Advances
    • Citations: 4
    • Year: 2018
  8. Title: Angular dependence of coercivity derived from alignment dependence of coercivity in Nd-Fe-B sintered magnets
    • Authors: Matsuura, Y., Nakamura, T., Sumitani, K., Tamura, R., Osamura, K.
    • Journal: AIP Advances
    • Citations: 8
    • Year: 2018
  9. Title: Relation between the alignment dependence of coercive force decrease ratio and the angular dependence of coercive force of ferrite magnets
    • Authors: Matsuura, Y., Kitai, N., Hosokawa, S., Hoshijima, J.
    • Journal: Journal of Magnetism and Magnetic Materials
    • Citations: 13
    • Year: 2016
  10. Title: Temperature properties of the alignment dependence of coercive force decrease ratio and the angular dependence of coercive force in Nd-Fe-B sintered magnets
    • Authors: Matsuura, Y., Kitai, N., Ishii, R., Hoshijima, J., Kuniyoshi, F.
    • Journal: Journal of Magnetism and Magnetic Materials
    • Citations: 23
    • Year: 2016