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

 

 

Peng Geng | Materials Science | Best Researcher Award

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Dr. Peng Geng | Materials Science | Best Researcher Award

Lecturer at China Three Gorges University, China

Peng Geng is a highly motivated and innovative researcher in the field of materials science, currently serving as a Lecturer at the College of Material and Chemical Engineering at China Three Gorges University. With a strong academic and research background, Peng has made significant contributions in the development of multifunctional nanomaterials, particularly in tumor theranostics and anti-counterfeiting applications. His groundbreaking work on single-component nano-fiber organogels for multi-level anti-counterfeiting has attracted considerable attention in the academic and industrial spheres. With a Doctorate in Materials Science from Donghua University (2022), Peng Geng continues to explore novel materials and technologies that address real-world challenges, exemplifying a commitment to advancing scientific knowledge.

Professional Profile

Education:

Peng Geng obtained his Ph.D. in Materials Science from Donghua University in 2022, specializing in the development of multifunctional materials with applications in advanced technologies such as tumor theranostics and anti-counterfeiting. Prior to his doctoral studies, he completed his undergraduate and master’s degrees at prestigious institutions, further honing his skills in the areas of material science and chemical engineering. His educational journey has provided him with a solid foundation in the principles of materials science, equipping him with the expertise to conduct cutting-edge research in this field.

Professional Experience:

Peng Geng currently holds the position of Lecturer at the College of Material and Chemical Engineering at China Three Gorges University, where he contributes to both teaching and research. His professional journey has been marked by a continuous pursuit of innovative solutions in the realm of materials science. As a faculty member, Peng Geng is deeply involved in guiding students and conducting high-level research. His professional experience also includes involvement in various research projects, such as the Natural Science Foundation of Hubei Province and the Yichang Natural Science Research Program, positioning him as a key contributor to academic advancements in his field.

Research Interests:

Peng Geng’s primary research interests lie in the development of advanced nanomaterials with specific applications in tumor theranostics and anti-counterfeiting. His work focuses on the creation of multifunctional materials capable of addressing critical challenges in both medical and industrial sectors. One of his notable contributions is the development of single-component nano-fiber organogels, which have been engineered to offer color-tunable and “on-off” switchable afterglow, contributing significantly to multi-level anti-counterfeiting measures. Additionally, he is interested in exploring the potential of nanomaterials in other fields, including sensors and advanced drug delivery systems.

Research Skills:

Peng Geng possesses strong research skills in the development and synthesis of multifunctional materials, particularly nanomaterials, and the application of computational models for material prediction. His expertise includes advanced techniques in organic chemistry and materials engineering, particularly in the creation of organogels and phosphorescent materials. Peng is skilled in the use of AMDS (Advanced Molecular Design System) for predicting gelation tendencies of organic molecules, a tool that has proven invaluable in his research. His technical skills also extend to a deep understanding of nanomaterials’ properties, particularly their tunable optical characteristics, which are crucial for the applications in anti-counterfeiting and tumor theranostics.

Awards and Honors:

While Peng Geng’s career is still in its early stages, his innovative research has already gained recognition through various research grants and funded projects. He has secured support from prominent institutions, such as the Natural Science Foundation of Hubei Province and the Yichang Natural Science Research Program, reflecting the value and potential of his work. His contributions to the fields of nanomaterials and anti-counterfeiting have garnered attention in academic journals, such as Adv. Optical Mater., and his work is increasingly seen as having the potential for broad industrial and scientific applications.

Conclusion:

Peng Geng is an emerging researcher with significant promise in the field of materials science. His innovative work in multifunctional nanomaterials, particularly in tumor theranostics and anti-counterfeiting applications, is a testament to his creativity and scientific rigor. Although he is still building his academic career, his research has already made a strong impact, demonstrated by his published work and involvement in high-level projects. With continued focus on enhancing collaborations and increasing his industry engagement, Peng Geng’s future contributions to materials science are likely to be transformative. He is well-positioned for further academic success and is a strong candidate for the Research for Best Researcher Award.

Publication Top Notes

  1. Title: Non-conventional luminescent π-organogels with a rigid chemical structure
    • Authors: Chen, S., Luo, D., Geng, P., Lan, H., Xiao, S.
    • Citations: 1
    • Year: 2024
  2. Title: From elementary to advanced: rational design of single component phosphorescence organogels for anti-counterfeiting applications
    • Authors: Lin, H., Shi, Y., Li, Y., Yan, J., Xiao, S.
    • Citations: 2
    • Year: 2024
  3. Title: Amorphous MnO2 Lamellae Encapsulated Covalent Triazine Polymer-Derived Multi-Heteroatoms-Doped Carbon for ORR/OER Bifunctional Electrocatalysis
    • Authors: Huo, L., Lv, M., Li, M., Zheng, Y., Ye, L.
    • Citations: 43
    • Year: 2024
  4. Title: Design and Synthesis of Nanoscale Zr-Porphyrin IX Framework for Synergistic Photodynamic and Sonodynamic Therapy of Tumors
    • Authors: Li, Y., Wang, W., Zhang, Y., Lan, H., Geng, P.
    • Citations: 2
    • Year: 2024
  5. Title: One Stone, Three Birds: Design and Synthesis of “All-in-One” Nanoscale Mn-Porphyrin Coordination Polymers for Magnetic Resonance Imaging-Guided Synergistic Photodynamic-Sonodynamic Therapy
    • Authors: Geng, P., Li, Y., Macharia, D.K., Lan, H., Xiao, S.
    • Citations: 9
    • Year: 2024
  6. Title: From biomaterials to biotherapy: cuttlefish ink with protoporphyrin IX nanoconjugates for synergistic sonodynamic-photothermal therapy
    • Authors: Li, Y., Huang, L., Li, X., Lan, H., Xiao, S.
    • Citations: 2
    • Year: 2024
  7. Title: Rational Design of Low-Molecular-Weight Organogels with Ultralong Room-Temperature Phosphorescence for Security
    • Authors: Shi, Y., Lin, H., Geng, P., Luo, D., Xiao, S.
    • Citations: 0
    • Year: 2024
  8. Title: Hollow copper sulfide loaded protoporphyrin for photothermal⁃sonodynamic therapy of cancer cells
    • Authors: Geng, P., Xiang, G., Zhang, W., Lan, H., Xiao, S.
    • Citations: 0
    • Year: 2024
  9. Title: One-pot Synthesis of Room Temperature Phosphorescent Boron-difluoride Derivative for Printing
    • Authors: Zhang, X., Geng, P., Xiang, J., Mao, M., Xiao, S.
    • Citations: 1
    • Year: 2024
  10. Title: Naphthalimide-based probe as an in situ indicator of photochemical reaction for self-reporting imidazole ring formation
    • Authors: Yang, B., Yan, X., Lan, H., Fang, Y., Xiao, S.
    • Citations: 1
    • Year: 2023