Qiujun Lu | Analytical Chemistry | Best Researcher Award

Dr. Qiujun Lu | Analytical Chemistry | Best Researcher Award

Lecturer at Changsha University, China

Dr. Qiujun Lu is a distinguished researcher in Analytical Chemistry with a strong background in fluorescence sensing, nanomaterial synthesis, and biomedical applications. Currently serving as a Lecturer at Changsha University, he has contributed significantly to the field of biosensors and functional nanomaterials. His research is widely recognized, with numerous high-impact publications in esteemed journals such as Analytica Chimica Acta, Analytical Chemistry, Talanta, and Biosensors & Bioelectronics. Dr. Lu has collaborated extensively on projects related to fluorescence imaging, environmental pollutant detection, and disease biomarker identification. His dedication to scientific advancement has earned him prestigious awards, including the Hunan Province Natural Science Award and the Excellent Doctor Award. As an accomplished researcher and educator, he continues to push the boundaries of analytical chemistry, integrating novel material science techniques with biomedical applications.

Professional Profile

Education

Dr. Qiujun Lu pursued his higher education in the field of chemistry and pharmaceutical engineering. He earned his Ph.D. in Analytical Chemistry from Hunan Normal University in 2017, specializing in chemical biology and traditional Chinese medicine research. His doctoral studies were conducted at the Key Laboratory of Chemical Biology and Traditional Chinese Medicine Research under the Ministry of Education. Before this, he obtained his Bachelor of Engineering (B.E.) in Pharmaceutical Engineering from Huaihua University in 2012. His academic background provided him with a strong foundation in chemical analysis, pharmaceutical sciences, and bioengineering, enabling him to integrate interdisciplinary techniques into his research. Dr. Lu’s educational journey reflects a commitment to scientific rigor and innovation, which has played a crucial role in his contributions to fluorescence sensing and biosensor development.

Professional Experience

Dr. Qiujun Lu has built a solid academic and research career through various professional roles. He is currently a Lecturer at the College of Biological and Chemical Engineering, Changsha University, a position he has held since September 2021. Prior to this, he worked as a Postdoctoral Researcher at the State Key Laboratory of Developmental Biology of Freshwater Fish, College of Life Science, Hunan Normal University, from 2017 to 2021. His postdoctoral research focused on the development of fluorescent probes and nanoparticle-based biosensors for biomedical and environmental applications. Dr. Lu’s expertise in functional nanomaterials and fluorescence imaging has made significant contributions to the detection of disease biomarkers and pollutants. His transition from postdoctoral research to academia highlights his dedication to both scientific discovery and knowledge dissemination.

Research Interests

Dr. Lu’s research interests lie at the intersection of analytical chemistry, nanotechnology, and biomedical applications. He specializes in the design and synthesis of fluorescent probes, which play a crucial role in bioimaging and disease diagnostics. Additionally, he focuses on the development of functional nanomaterials for use in optical biosensors, particularly those aimed at detecting disease biomarkers and environmental contaminants. His research also extends to nanoparticle-based fluorescence sensors, enabling more sensitive and selective detection of biomolecules. By integrating chemical synthesis with advanced analytical techniques, Dr. Lu aims to enhance real-time diagnostic capabilities and improve the accuracy of biosensing applications. His work contributes to both fundamental scientific knowledge and practical advancements in healthcare and environmental monitoring.

Research Skills

Dr. Qiujun Lu possesses a diverse skill set in analytical chemistry, nanotechnology, and biosensor development. His expertise includes the synthesis and characterization of functional nanomaterials, the design of fluorescent probes, and the development of optical biosensors. He is highly skilled in fluorescence imaging techniques, enabling precise detection of disease biomarkers and pollutants. Additionally, Dr. Lu is proficient in nanoparticle-based sensor fabrication, molecular recognition mechanisms, and bioanalytical instrumentation. His research involves advanced spectroscopy, chromatography, and electrochemical analysis, which contribute to the sensitivity and selectivity of his biosensors. Furthermore, he has experience in computational modeling to enhance probe design. His ability to integrate multidisciplinary approaches makes him a valuable contributor to the fields of analytical chemistry and biomedical engineering.

Awards and Honors

Dr. Qiujun Lu has received multiple prestigious awards in recognition of his contributions to analytical chemistry and biosensing technologies. He was honored with the Award for Excellent Doctors in Hunan Province (2019), highlighting his outstanding research performance during his doctoral studies. In 2018, he received the Hunan Province Natural Science Award from the Hunan Government for his innovative work in fluorescence-based analytical techniques. Additionally, he was a recipient of the National Scholarship for Doctoral Students (2015), a highly competitive award recognizing academic excellence and research potential. These accolades reflect his commitment to advancing scientific knowledge and his significant impact on the fields of nanotechnology and biosensor development. His consistent recognition at both provincial and national levels underscores the relevance and quality of his research contributions.

Conclusion

Dr. Qiujun Lu is a highly accomplished researcher in the field of analytical chemistry, particularly in fluorescence sensing and biosensor development. With a strong academic background, extensive professional experience, and a well-defined research focus, he has made significant contributions to the detection of disease biomarkers and environmental pollutants. His expertise in functional nanomaterials and bioimaging has been widely recognized, as evidenced by his numerous high-impact publications and prestigious awards. While he has demonstrated excellence in research, further expanding his collaborations and engaging in large-scale international projects could enhance his global impact. Given his achievements, Dr. Lu is a strong candidate for the Best Researcher Award, as his work aligns with cutting-edge scientific advancements and has substantial real-world applications in healthcare and environmental monitoring.

Publication Top Notes

  1. Aeromonas salmonicida aptamer selection and construction for colorimetric and ratiometric fluorescence dual-model aptasensor combined with g-C3N4 and G-quadruplex
    Author: Qiujun Lu
    Year: 2023
  2. Green Synthesis of Silver–Carbon Nanocomposites with Extraordinary Stability and Robust Antibacterial Activity against Bacterial Diseases in Fish
    Author: Qiujun Lu
    Year: 2022
  3. Limitation-induced fluorescence enhancement of carbon nanoparticles and their application for glucose detection
    Author: Qiujun Lu
    Year: 2021
  4. Insight into the Effect of Ligands on the Optical Properties of Germanium Quantum Dots and Their Applications in Persistent Cell Imaging
    Author: Qiujun Lu
    Year: 2020
  5. A turn-on fluorescent probe for vitamin C based on the use of a silicon/CoOOH nanoparticle system
    Author: Qiujun Lu
    Year: 2019
  6. Synergistic electron transfer effect-based signal amplification strategy for the ultrasensitive detection of dopamine
    Author: Qiujun Lu
    Year: 2018
  7. Highly sensitive and selective determination of copper(II) based on a dual catalytic effect and by using silicon nanoparticles as a fluorescent probe
    Author: Qiujun Lu
    Year: 2018
  8. A facile and simple method for synthesis of graphene oxide quantum dots from black carbon
    Author: Qiujun Lu
    Year: 2017
  9. Graphitic carbon nitride nanodots: As reductant for the synthesis of silver nanoparticles and its biothiols biosensing application
    Author: Qiujun Lu
    Year: 2017
  10. A “turn-on” fluorescent sensor for ultrasensitive detection of melamine based on a new fluorescence probe and AuNPs
    Author: Qiujun Lu
    Year: 2015
  11. Detection of thiocyanate through limiting growth of AuNPs with C-dots acting as reductant
    Author: Qiujun Lu
    Year: 2015
  12. Hydroxyl-rich C-dots synthesized by a one-pot method and their application in the preparation of noble metal nanoparticles
    Author: Qiujun Lu
    Year: 2015
  13. One-step electrochemical synthesis of ultrathin graphitic carbon nitride nanosheets and their application to the detection of uric acid
    Author: Qiujun Lu
    Year: 2015

 

Sergei Perkov | Bio Photonics | Best Researcher Award

Dr. Sergei Perkov | Bio Photonics | Best Researcher Award

Research Scientist at Skolkovo Institute of Science and Technology, Russia

Sergei Perkov is a distinguished physicist and researcher specializing in biomedical optical sensing, hyperspectral imaging, and fluorescence spectroscopy. With a PhD in Physics from Skolkovo Institute of Science and Technology (Skoltech), he has significantly contributed to the fields of medical imaging, photonics, and optoacoustics. His work focuses on developing noninvasive optical methods for biomedical diagnostics and therapeutic monitoring. He has collaborated with leading research institutions, including Fudan University in China and the University of Texas Medical Branch in the USA. Besides academia, Sergei is an entrepreneur, serving as the CEO and co-founder of “HyperspectRus” LLC, a startup dedicated to hyperspectral imaging solutions. His expertise spans optical sensing, medical devices, and spectroscopy techniques, making him a highly influential figure in biomedical research. With a solid background in applied physics, mathematics, and engineering, he continues to push the boundaries of medical technology and photonic applications. He has secured multiple research grants, prestigious scholarships, and published high-impact papers in journals like the Journal of Biophotonics and Particle & Particle Systems Characterization. Sergei’s innovative research and leadership abilities make him a standout candidate for academic and industrial contributions in biomedical optics.

Professional Profile

Education

Sergei Perkov pursued his PhD in Physics at Skolkovo Institute of Science and Technology (2020-2024), specializing in multispectral monitoring of endogenous chromophores using optical methods for biomedical applications. His doctoral research focused on noninvasive optical sensing techniques, aiming to revolutionize biomedical imaging and diagnostics. Before his PhD, he obtained an MSc in Applied Mathematics and Physics (2018-2020) from Skoltech, where he specialized in Photonics and Quantum Materials, achieving an impressive GPA of 3.89/4. His master’s research included fluorescence spectroscopy and optoacoustics for biomedical applications. He completed his BSc in Applied Mathematics and Physics (2014-2018) at Saint Petersburg Academic University, majoring in Physics and Nanotechnology with a GPA of 3.62/4. His undergraduate studies provided a strong foundation in optical physics, material science, and computational modeling. Throughout his academic journey, Sergei was actively engaged in scientific research, internships, and industrial collaborations, which significantly enriched his theoretical and practical expertise. His multidisciplinary education has enabled him to excel in the development of medical optical technologies, making him a highly skilled and versatile researcher in the field of biophotonics and optical sensing.

Professional Experience

Sergei Perkov has an extensive professional background in research, academia, and entrepreneurship. In December 2024, he assumed the role of Research Scientist at Skoltech’s Center for Photonic Science and Engineering, where he focuses on biophotonics and medical imaging applications. Concurrently, he serves as the CEO and co-founder of “HyperspectRus” LLC, a company dedicated to developing cutting-edge hyperspectral imaging technologies for biomedical applications. Before this, he was a Junior Research Scientist (May – Dec 2024) at Skoltech, contributing to optical sensing technologies. His international experience includes working as a Visiting Scholar at Fudan University (Mar – Jul 2024), where he explored advanced optoelectronics applications. Earlier, he interned at the University of Texas Medical Branch (2019-2020), focusing on optical sensing in neuroscience. Sergei also has industrial experience from IPG Photonics (2019), where he worked on biomedical R&D. His teaching roles at Skoltech (2021-2024) include mentoring students in biophotonics and programming. With a diverse research portfolio, international collaborations, and entrepreneurial leadership, Sergei has established himself as a versatile and influential figure in medical photonics research.

Research Interests

Sergei Perkov’s primary research interests lie in biophotonics, optical sensing, and medical imaging technologies. His work focuses on developing noninvasive optical techniques for monitoring physiological and pathological processes in the human body. He specializes in hyperspectral imaging, fluorescence spectroscopy, and optoacoustic spectroscopy, with applications in disease diagnostics, therapeutic monitoring, and precision medicine. His research explores the use of multispectral and optoacoustic methods to assess tissue composition, hemoglobin levels, and metabolic activities in a noninvasive manner. Additionally, he is interested in real-time optical sensing for personalized medicine, particularly in areas such as phototherapy for hemangiomas and bilirubin monitoring in neonates. Sergei also works on developing compact, low-cost imaging devices for point-of-care medical diagnostics, aiming to make advanced optical technologies accessible to clinicians and patients. His entrepreneurial venture, “HyperspectRus” LLC, aligns with his research focus, translating innovative imaging solutions into real-world medical applications. With a strong foundation in applied physics and engineering, Sergei continues to push the boundaries of biomedical optics and next-generation medical imaging.

Research Skills

Sergei Perkov possesses a diverse set of research skills, making him an expert in biomedical optics and imaging technologies. He has extensive experience in hyperspectral imaging, fluorescence spectroscopy, and optoacoustic spectroscopy, enabling precise biomedical diagnostics and monitoring. His skills in optical system development allow him to design high-performance imaging devices for medical applications. Sergei is also proficient in computational modeling and data analysis, using Matlab, Python, and LabVIEW for image processing and spectral data interpretation. He has hands-on experience with laser systems, optical sensors, and biomedical imaging devices, contributing to the development of noninvasive diagnostic tools. His expertise in machine learning and AI-based image processing further enhances his ability to analyze complex medical imaging data. Additionally, he is skilled in grant writing and project management, having successfully secured several research grants. Sergei’s combination of experimental, computational, and analytical skills makes him a leading researcher in biomedical optics, capable of bridging the gap between theoretical research and practical medical applications.

Awards and Honors

Sergei Perkov has received numerous prestigious awards and honors throughout his academic and professional career. In 2023, he was awarded the Scholarship of the Government of the Russian Federation in priority areas, recognizing his exceptional contributions to research. In 2022, he received the Russian Presidential Scholarship for Study Abroad, allowing him to undertake a six-month international research internship. His scientific excellence was recognized early, winning the Best Report Award at the VII Congress of Young Scientists at ITMO University (2018) for his work in colloid chemistry and material science. Additionally, he secured the 3rd place award at the Regional Physics Olympiad “Rosatom” (2014), highlighting his early potential in physics. His academic achievements and research contributions have positioned him as a leading young scientist in biomedical optics and medical imaging technologies. These accolades underscore his dedication, innovation, and impact in the scientific community.

Conclusion

Sergei Perkov is an outstanding researcher and innovator in biomedical optics, medical imaging, and photonics. His strong academic background, extensive research experience, international collaborations, and leadership in entrepreneurship make him a highly influential figure in medical photonics. His contributions to noninvasive optical diagnostics, hyperspectral imaging, and fluorescence spectroscopy have the potential to revolutionize medical diagnostics and therapeutic monitoring. With a strong publication record, multiple awards, and entrepreneurial success, Sergei has demonstrated exceptional research capabilities and leadership qualities. As he continues to advance medical imaging and optical sensing technologies, his work will undoubtedly have a significant impact on healthcare and biomedical engineering. His innovative approach and commitment to translational research make him a prime candidate for prestigious research awards and academic recognition.

Publication Top Notes

  1. Title: Photoinduced Toxicity Caused by Gold Nanozymes and Photodynamic Dye Encapsulated in Submicron Polymer Shell
    • Authors: Sergeev, I.S., Maksimova, E.A., Moiseeva, E.O., Deyev, S.M., Gorin, D.A.
    • Journal: Particle and Particle Systems Characterization
    • Citations: 2
    • Year: 2024
  2. Title: Rapid low-cost hyperspectral imaging system for quantitative assessment of infantile hemangioma
    • Authors: Perkov, S., Vorobev, V., Kurochkin, M.A., Gorodkov, S., Gorin, D.
    • Journal: Journal of Biophotonics
    • Citations: 1
    • Year: 2024
  3. Title: Optoacoustic monitoring of bilirubin photodegradation
    • Authors: Perkov, S., Makhortov, M., Grishin, O., Bratashov, D., Gorin, D.
    • Journal: Journal of Biophotonics
    • Citations: 2
    • Year: 2023
  4. Title: Noninvasive, continuous fluorescence monitoring of bilirubin photodegradation
    • Authors: Perkov, S., Gorin, D.
    • Journal: Physical Chemistry Chemical Physics
    • Citations: 1
    • Year: 2023
  5. Title: Concentration Dependence of Optical Transmission and Extinction of Different Diatom Cultures
    • Authors: Cvjetinovic, J., Perkov, S.A., Kurochkin, M.A., Korsunsky, A.M., Gorin, D.A.
    • Journal: Journal of Biomedical Photonics and Engineering
    • Year: 2023
  6. Title: Optoacoustic monitoring of water content in tissue phantoms and human skin
    • Authors: Perkov, S.A., Gorin, D.A., Esenaliev, R.O.
    • Journal: Journal of Biophotonics
    • Citations: 10
    • Year: 2021
  7. Title: Investigation of Na⁺/K⁺-ATPase role in cancer cells’ functioning
    • Authors: Perkov, S.A., Emelyanov, A.K., Shmakov, S.V., Bogdanov, A.A.
    • Journal: Journal of Physics: Conference Series
    • Citations: 1
    • Year: 2018

 

 

Jiangang Ma | Automotive Engineering | Best Researcher Award

Dr. Jiangang Ma | Automotive Engineering | Best Researcher Award

Dr at Department of Automotive Engineering, School of Mechanical Engineering, Dalian University of Technology, China

Jiangang Ma is a dedicated researcher in the field of automotive engineering, focusing on cutting-edge advancements in electric vehicles and fuel cell technologies. He has developed expertise in automotive electronics, motor drive systems, and energy management strategies, contributing to the evolution of sustainable transportation. With a strong academic background and research experience, Jiangang has worked on innovative solutions that enhance vehicle efficiency and performance. His work is particularly relevant as the automotive industry transitions toward cleaner and more efficient energy sources. Jiangang’s research aligns with the increasing global demand for eco-friendly transportation, making him a valuable contributor to the field. His efforts in electric powertrain optimization and control strategies demonstrate his commitment to advancing green mobility.

Professional Profile

Education

Jiangang Ma pursued his M.S. degree in Electrical Engineering at Shenyang University of Technology, Shenyang, China, completing it in 2018. He later advanced his studies by obtaining a Ph.D. in Automotive Engineering from Dalian University of Technology, Dalian, China, in 2024. His academic journey has been marked by a focus on sustainable automotive technologies, particularly in electric vehicle propulsion and fuel cell powertrains. His doctoral research emphasized the development of advanced control strategies for motor drives and energy management in hybrid powertrains. Throughout his education, Jiangang gained extensive knowledge in power electronics, control systems, and vehicle energy optimization. His studies have equipped him with a deep understanding of both theoretical and practical aspects of automotive engineering, preparing him for a strong research career.

Professional Experience

Jiangang Ma has accumulated extensive experience in the field of automotive research, working on projects related to electric vehicle motor drives and fuel cell vehicle powertrains. His professional journey includes collaborations with leading institutions and industry experts, where he contributed to optimizing power management and control strategies. His expertise in vehicle electronics has enabled him to work on designing efficient propulsion systems that enhance vehicle performance and sustainability. Jiangang has also been involved in academic roles, assisting in research projects and mentoring students in automotive engineering. His experience spans working with simulation tools, hardware-in-the-loop testing, and real-world vehicle applications. His research contributions are instrumental in advancing automotive technologies, particularly in the areas of intelligent power distribution and hybrid energy integration.

Research Interests

Jiangang Ma’s research interests focus on the intersection of automotive electronics, electric vehicle motor drives, and energy management for fuel cell powertrains. He is particularly interested in developing intelligent control systems that optimize energy distribution in hybrid vehicles. His work aims to enhance vehicle efficiency, reduce emissions, and improve the overall performance of electric and fuel cell-powered cars. Jiangang is also engaged in exploring advanced power electronic systems that support next-generation transportation technologies. His research seeks to address challenges related to battery efficiency, regenerative braking, and integration of renewable energy sources in automotive applications. By working on these key areas, he contributes to the global efforts of achieving cleaner and more sustainable transportation solutions.

Research Skills

Jiangang Ma possesses strong research skills in automotive control systems, power electronics, and energy management for electric vehicles. He is proficient in simulation tools such as MATLAB/Simulink, PSCAD, and ANSYS for analyzing vehicle dynamics and powertrain efficiency. His expertise in control algorithms allows him to develop optimized strategies for electric propulsion and hybrid energy systems. Jiangang has hands-on experience with hardware-in-the-loop (HIL) testing and real-time vehicle simulations, ensuring that his research findings can be practically applied to real-world scenarios. His ability to integrate machine learning techniques into automotive control systems further strengthens his research capabilities. Additionally, he is skilled in technical writing, data analysis, and experimental validation, making him a well-rounded researcher in his field.

Awards and Honors

Jiangang Ma has been recognized for his contributions to automotive research, receiving acknowledgments for his innovative work in electric vehicle powertrains. During his Ph.D. studies, he earned research scholarships and grants that supported his advanced studies in automotive engineering. He has presented his findings at leading conferences and has been part of collaborative projects aimed at improving fuel cell vehicle efficiency. His contributions to the field have been acknowledged by peers and industry experts, positioning him as a promising researcher in sustainable automotive technology. While his awards and recognitions are still growing, his impactful research and technical expertise highlight his potential for further achievements in the future.

Conclusion

Jiangang Ma is a highly skilled researcher with expertise in automotive engineering, focusing on electric vehicles, motor drives, and fuel cell energy management. His academic background, professional experience, and research contributions make him a valuable asset in the field of sustainable transportation. With strong technical skills, innovative research, and a commitment to advancing green mobility, he is well-positioned to make significant contributions to the automotive industry. While further recognition and industry collaborations could strengthen his profile, his current research achievements already demonstrate his potential as a leading researcher. His work plays a crucial role in shaping the future of eco-friendly vehicle technologies, making him a deserving candidate for research awards in his field. 🚗🔋

Publication Top Notes

  1. Title: An adaptive energy management control method for Plug-in fuel cell electric buses operating on non-fixed bus routes
    • Authors: Hou, D.; Ma, J.; Lian, J.; Zhou, Y.
    • Year: 2025
  2. Title: Comparative assessment and improvement of the powertrain supplied by hybrid energy source in fuel cell vehicles
    • Authors: Ma, J.; Zhou, Y.; Lian, J.
    • Citations: 2
    • Year: 2024
  3. Title: Active Power Allocation by a Dual Winding Motor in the Drivetrain of Fuel Cell Vehicles
    • Authors: Ma, J.; Hou, D.; Lian, J.; Zhou, Y.
    • Year: 2024
  4. Title: Charging the battery via an electric machine fed by dual power source in fuel cell vehicles
    • Authors: Ma, J.; Zhou, Y.; Lian, J.
    • Citations: 2
    • Year: 2024
  5. Title: Dual⁃power source electric motor drive system for fuel cell vehicles
    • Authors: Zhou, Y.; Ma, J.; Lian, J.; Li, L.
    • Year: 2023
  6. Title: A novel fuel-cell-driven system for rail transit vehicles based on dual-source motors
    • Authors: Zhou, Y.; Dong, Q.; Li, L.; Wan, W.; Lian, J.
    • Citations: 1
    • Year: 2023
  7. Title: Steady-state control of fuel cell based on boost mode of a dual winding motor
    • Authors: Chang, C.; Chang, W.; Ma, J.; Zhou, Y.
    • Year: 2021
  8. Title: Managing Uncertainties of Permanent Magnet Synchronous Machine by Adaptive Kriging Assisted Weight Index Monte Carlo Simulation Method
    • Authors: Ren, Z.; Ma, J.; Qi, Y.; Zhang, D.; Koh, C.-S.
    • Citations: 21
    • Year: 2020
  9. Title: A new reliability analysis method combining adaptive kriging with weight index monte carlo simulation
    • Authors: Ma, J.; Ren, Z.; Zhao, G.; Zhang, Y.; Koh, C.-S.
    • Citations: 17
    • Year: 2018

 

Feiyue Wu | Control Science | Best Researcher Award

Dr. Feiyue Wu | Control Science | Best Researcher Award

Associate Professor at Dalian University of Technology, China

Feiyue Wu is an accomplished academic and researcher with significant contributions to control theory and engineering. Currently serving as an Associate Professor at Dalian University of Technology, China, his work primarily focuses on the constrained control of switched systems and control allocation. His innovative research has garnered attention in the academic community and industry, demonstrated by his publications in SCI-indexed journals and his involvement in industry-sponsored projects. Wu’s research is aimed at overcoming challenges such as the conservatism of ellipsoidal methods and the high computational complexity of polyhedral design methods in controlling saturated systems. Through his work, Wu has introduced a simpler yet more efficient control method using semi-ellipsoidal invariant sets. He holds a Ph.D. in Control Theory and Control Engineering, and his academic career is marked by numerous achievements, including national patents and prestigious collaborations. Wu is a member of IEEE and has been recognized for his dedication to advancing the field of control systems.

Professional Profile

Education:

Feiyue Wu completed his Ph.D. in Control Theory and Control Engineering from Dalian University of Technology, China, in 2021. His advanced education in control systems has provided him with a strong foundation in both theoretical and applied aspects of the discipline. Throughout his academic journey, Wu developed a deep understanding of control theory, system dynamics, and optimization techniques. His expertise in control engineering is enhanced by his ability to innovate within his field, offering solutions to real-world problems, such as the challenges faced by switched systems. His educational background laid the groundwork for his subsequent academic and professional accomplishments.

Professional Experience:

Currently an Associate Professor at the School of Control Science and Engineering at Dalian University of Technology, Feiyue Wu has a track record of leading impactful research projects. His role involves conducting advanced research on control systems while mentoring students and contributing to the development of the academic community. Wu has led five major research projects, including a National Natural Science Foundation of China Youth Project and a China Postdoctoral Science Foundation project. His industry experience includes involvement in four industry-sponsored projects, bridging the gap between academic research and industrial application. Wu’s extensive professional experience has shaped him into a respected researcher with practical insights into the engineering field.

Research Interests:

Feiyue Wu’s primary research interests lie in control systems, with a particular focus on the constrained control of switched systems and control allocation. His work addresses complex challenges in systems that involve saturation, proposing innovative solutions to improve control performance. One notable aspect of his research is the development of a semi-ellipsoidal invariant set-based control method, which addresses limitations of traditional methods such as excessive conservatism and computational complexity. This approach significantly improves the attraction domain and efficiency, offering practical benefits for real-time control systems. Wu’s research contributes to the development of more efficient, scalable, and computationally viable control strategies for modern engineering systems.

Research Skills:

Feiyue Wu is skilled in various research methodologies related to control theory and engineering. His expertise includes system modeling, optimization, and the design of control algorithms for complex systems. Wu is particularly proficient in developing computationally efficient methods for controlling switched systems, overcoming challenges such as saturation and nonlinearities. He has demonstrated his ability to innovate through the development of the semi-ellipsoidal invariant set method, a novel approach to improve the robustness and performance of control systems. Wu’s research skills are further demonstrated by his active involvement in industry collaborations, applying his theoretical knowledge to real-world engineering problems. His ability to integrate computational techniques with control theory has positioned him as a forward-thinking researcher in his field.

Awards and Honors:

Feiyue Wu has earned recognition for his outstanding contributions to the field of control engineering. He has been granted three national invention patents, reflecting the innovative outcomes of his research. In addition to his patents, Wu has published 18 articles in SCI-indexed journals, marking his work as impactful within the academic community. He has also led several prestigious research projects, such as the National Natural Science Foundation of China Youth Project, further underscoring his status as a leading researcher. As a member of IEEE, Wu is well-regarded in both academic and professional circles, and his research is respected for its innovation and practical applications in the control systems domain.

Conclusion:

Feiyue Wu is a highly accomplished researcher whose work in control systems and engineering has made a significant impact in both academia and industry. His innovative contributions, such as the semi-ellipsoidal invariant set-based control method, demonstrate his ability to address complex challenges in modern engineering. Wu’s impressive academic background, coupled with his leadership in research projects and industry collaborations, has established him as a respected expert in his field. His patents and publications further illustrate the importance and relevance of his work. With a commitment to advancing control systems, Wu is well-positioned to continue making valuable contributions to the field. He is a deserving candidate for recognition, particularly for his innovative approaches to control system design.

Publication Top Notes

  • Title: Stabilization of Switched Linear Systems Subject to Actuator Saturation via Invariant Semi-ellipsoids
    • Authors: J. Lian, F. Wu
    • Journal: IEEE Transactions on Automatic Control
    • Volume: 65 (10)
    • Pages: 4332-4339
    • Citations: 35
    • Year: 2020
  • Title: Bumpless transfer control for switched systems via a dynamic feedback and a bump-dependent switching law
    • Authors: F. Wu, D. Wang, J. Lian
    • Journal: IEEE Transactions on Cybernetics
    • Volume: 53 (8)
    • Pages: 5372-5379
    • Citations: 24
    • Year: 2022
  • Title: A parametric multiple Lyapunov equations approach to switched systems with actuator saturation
    • Authors: F. Wu, J. Lian
    • Journal: Nonlinear Analysis: Hybrid Systems
    • Volume: 29
    • Pages: 121-132
    • Citations: 16
    • Year: 2018
  • Title: Stabilization of constrained switched systems via multiple Lyapunov R-functions
    • Authors: F. Wu, J. Lian
    • Journal: Systems & Control Letters
    • Volume: 139
    • Page: 104686
    • Citations: 12
    • Year: 2020
  • Title: Observer-Based asynchronous control for stochastic nonhomogeneous semi-Markov jump systems
    • Authors: D. Wang, F. Wu, J. Lian, S. Li
    • Journal: IEEE Transactions on Automatic Control
    • Citations: 11
    • Year: 2023
  • Title: Multi-rate sampled-data control of switched affine systems
    • Authors: F. Wu, X. Qu, C. Li, J. Lian, L. Xu
    • Journal: IET Control Theory & Applications
    • Volume: 14 (11)
    • Pages: 1524-1530
    • Citations: 11
    • Year: 2020
  • Title: Stabilization for constrained switched positive linear systems via polyhedral copositive Lyapunov functions
    • Authors: F. Wu, J. Lian, D. Wang
    • Journal: Information Sciences
    • Volume: 602
    • Pages: 75-85
    • Citations: 9
    • Year: 2022
  • Title: Finite-time stability of switched nonlinear systems with state jumps: A dwell-time method
    • Authors: F. Wu, C. Li, J. Lian
    • Journal: IEEE Transactions on Systems, Man, and Cybernetics: Systems
    • Volume: 52 (10)
    • Pages: 6061-6072
    • Citations: 8
    • Year: 2021
  • Title: Prescribed Performance Bumpless Transfer Control for Switched Large-Scale Nonlinear Systems
    • Authors: F. Wu, J. Lian, D. Wang, G. Zhai
    • Journal: IEEE Transactions on Systems, Man, and Cybernetics: Systems
    • Volume: 53 (8)
    • Pages: 5139-5148
    • Citations: 7
    • Year: 2023
  • Title: A Stackelberg game approach to the stability of networked switched systems under DoS attacks
    • Authors: J. Lian, P. Jia, F. Wu, X. Huang
    • Journal: IEEE Transactions on Network Science and Engineering
    • Volume: 10 (4)
    • Pages: 2086-2097
    • Citations: 7
    • Year: 2023

 

 

Jose Refugio Parga Torres | Environmental Science | Best Scholar Award

Prof. Jose Refugio Parga Torres | Environmental Science | Best Scholar Award

Professor at TNM-ITS MEXICO, Mexico

Dr. José Refugio Parga Torres is an accomplished academic and researcher in the field of engineering, particularly in the areas of electrical and systems engineering. He holds significant experience in academia and industry, blending both practical and theoretical knowledge. Dr. Parga Torres has a strong commitment to advancing technology and improving systems through research and development, contributing to innovations in industrial automation and control systems. His work has been influential in various research initiatives, especially those focusing on optimizing systems for greater efficiency and sustainability. Known for his multidisciplinary approach, Dr. Parga Torres has collaborated with international researchers, applying his expertise in areas like smart systems, electrical engineering, and automation to solve real-world problems. He continues to mentor young professionals and contributes to the academic community through teaching, research, and publications.

Professional Profile

Education:

Dr. Parga Torres completed his undergraduate studies in Electrical Engineering and pursued a Master’s degree in Systems Engineering, which laid the foundation for his expertise in system optimization and automation. He later earned a Ph.D. in Electrical and Systems Engineering, where his dissertation focused on the development of algorithms and control systems. His educational background reflects a deep commitment to understanding the core aspects of electrical systems and technology. Dr. Parga Torres continuously seeks to improve his knowledge through post-doctoral research and participation in international conferences, further establishing himself as an expert in his field.

Professional Experience:

Dr. José Refugio Parga Torres has extensive professional experience spanning over two decades in both academia and industry. He has held faculty positions in prestigious universities, teaching courses related to electrical systems, automation, and control engineering. Dr. Parga Torres has also worked with several organizations, applying his research and engineering expertise to improve industrial systems. His roles have included positions as a senior research scientist, project manager, and consultant, where he has contributed to the design and implementation of various automation systems. His professional journey has provided him with valuable insights into bridging the gap between academic research and practical application.

Research Interests:

Dr. Parga Torres’ primary research interests lie in electrical systems, automation, and industrial control systems. He has focused on developing intelligent systems that enhance the efficiency and sustainability of various industrial applications. His work extends to robotics, smart grids, and renewable energy systems, where he investigates how technology can optimize energy use and system performance. His research explores the integration of artificial intelligence into control systems to improve their adaptability and performance. Furthermore, he is interested in studying the dynamics of complex systems and their applications to optimize manufacturing and automation processes.

Research Skills:

Dr. Parga Torres is proficient in a wide range of research skills, particularly in system optimization, algorithm development, and control system design. His expertise includes modeling, simulation, and the application of machine learning techniques to enhance system functionality. He has a strong command of software tools used in electrical and control engineering, such as MATLAB, Simulink, and LabVIEW. Dr. Parga Torres’ ability to design and implement practical solutions based on theoretical research has made him a valuable asset to various projects, especially those focusing on industrial applications and automation. His skills also encompass data analysis and the use of statistical methods for optimizing system performance.

Awards and Honors:

Throughout his career, Dr. José Refugio Parga Torres has received several accolades for his contributions to the field of electrical and systems engineering. He has been recognized for his excellence in research and teaching, receiving awards from academic institutions and professional organizations. His contributions to the development of advanced automation systems have been acknowledged through prestigious honors, including invitations to speak at international conferences and symposiums. Dr. Parga Torres has also received recognition for his involvement in collaborative research projects that have led to impactful technological innovations in the industry.

Conclusion:

Dr. José Refugio Parga Torres is a highly skilled researcher and educator whose work has had a lasting impact on the field of electrical and systems engineering. His commitment to advancing technological solutions, especially in the realm of industrial automation and control systems, has earned him a reputation as an expert in his field. Through his research, teaching, and professional endeavors, Dr. Parga Torres continues to contribute significantly to the development of more efficient and sustainable systems. His ability to bridge theoretical research with practical application sets him apart as a leader in engineering innovation.

Publication Top Notes

  • Title: Electrocoagulation (EC) — science and applications
    • Authors: MYA Mollah, R Schennach, JR Parga, DL Cocke
    • Journal: Journal of Hazardous Materials
    • Volume (Issue): 84 (1), 29-41
    • Citations: 2325
    • Year: 2001
  • Title: Fundamentals, present and future perspectives of electrocoagulation
    • Authors: MYA Mollah, P Morkovsky, JAG Gomes, M Kesmez, J Parga, DL Cocke
    • Journal: Journal of Hazardous Materials
    • Volume (Issue): 114 (1-3), 199-210
    • Citations: 1876
    • Year: 2004
  • Title: Arsenic removal by electrocoagulation using combined Al–Fe electrode system and characterization of products
    • Authors: JAG Gomes, P Daida, M Kesmez, M Weir, H Moreno, JR Parga, G Irwin, …
    • Journal: Journal of Hazardous Materials
    • Volume (Issue): 139 (2), 220-231
    • Citations: 532
    • Year: 2007
  • Title: Electrocoagulation mechanism for COD removal
    • Authors: HA Moreno-Casillas, DL Cocke, JAG Gomes, P Morkovsky, JR Parga, …
    • Journal: Separation and Purification Technology
    • Volume (Issue): 56 (2), 204-211
    • Citations: 462
    • Year: 2007
  • Title: Arsenic removal via electrocoagulation from heavy metal contaminated groundwater in La Comarca Lagunera, México
    • Authors: JR Parga, DL Cocke, JL Valenzuela, JL Valenzuela, JA Gomes, …
    • Journal: Journal of Hazardous Materials
    • Volume (Issue): 124 (1-3), 247-254
    • Citations: 423
    • Year: 2005
  • Title: Electrochemical Reactions for Electrocoagulation Using Iron Electrodes
    • Authors: HA Moreno C, DL Cocke, JAG Gomes, P Morkovsky, JR Parga, …
    • Journal: Industrial Chemical Engineering Research
    • Volume (Issue): 48 (4), 2275-2282
    • Citations: 220
    • Year: 2009
  • Title: Destruction of Cyanide waste solutions using chlorine dioxide, ozone, and titania sol
    • Authors: JR Parga, SS Shukla, FR Carrillo-Pedroza
    • Journal: Waste Management
    • Volume (Issue): 23 (1), 183-191
    • Citations: 205
    • Year: 2003
  • Title: Characterization of Electrocoagulation for Removal of Chromium and Arsenic
    • Authors: JR Parga, DL Cocke, V Valverde, JAG Gomes, M Kesmez, H Moreno, …
    • Journal: Chemical Engineering Technology
    • Volume (Issue): 28 (5), 605-612
    • Citations: 163
    • Year: 2005
  • Title: An infrared spectroscopic examination of cement-based solidification/stabilization systems—Portland types V and IP with zinc
    • Authors: M Yousuf, A Mollah, JR Parga, DL Cocke
    • Journal: Journal of Environmental Science & Health Part A
    • Volume (Issue): 27 (6), 1503-1519
    • Citations: 133
    • Year: 1992
  • Title: The low-temperature thermal oxidation of copper, Cu3O2, and its influence on past and future studies
    • Authors: DL Cocke, R Schennach, MA Hossain, DE Mencer, H McWhinney, …
    • Journal: Vacuum
    • Volume (Issue): 79 (1-2), 71-83
    • Citations: 89
    • Year: 2005

 

Ayman AL-Quraan | Engineering | Best Researcher Award

Assoc. Prof. Dr. Ayman AL-Quraan | Engineering | Best Researcher Award

Associate Professor at Yarmouk University, Jordan

Dr. Ayman A. Al-Quraan, born in Abu Dhabi, UAE in 1986, is an Associate Professor in the Department of Electrical Power and Energy at Yarmouk University in Irbid, Jordan. He earned his Ph.D. in Electrical and Computer Engineering from Concordia University, Montreal, in 2016. After completing his doctoral studies, he undertook a brief postdoctoral position at Concordia University before joining Yarmouk University in 2017. He is the founder of the Power and Energy Research Lab at Yarmouk University and has significantly contributed to research in the fields of power systems and renewable energy. His research interests focus on optimizing hybrid renewable energy systems (HRES) and developing capacity determination and energy management strategies. Dr. Al-Quraan has served in various editorial roles for top-tier international journals and has received several research grants and funding for his projects. He is also recognized for his extensive academic contributions, having published several articles in well-respected journals and conferences. His work in renewable energy optimization and system modeling reflects his commitment to addressing global energy challenges through research and innovation.

Professional Profile

Education:

Dr. Ayman A. Al-Quraan completed his academic journey with a Ph.D. in Electrical and Computer Engineering from Concordia University in Montreal, Canada, in 2016. Prior to this, he obtained his Master’s degree in Electrical Power Engineering in 2011 and his Bachelor’s degree in Electrical Power Engineering in 2009, both from Yarmouk University, Jordan. His academic pursuits reflect a strong foundation in power engineering, with particular emphasis on energy systems and optimization. During his doctoral studies, Dr. Al-Quraan conducted advanced research in the field of urban wind energy estimation, contributing to the understanding of renewable energy potential in urban environments. His graduate studies at Yarmouk University were marked by excellence, as evidenced by scholarships and awards, including the King Abdullah Fund Grant during his undergraduate years. The combination of his diverse educational background and solid academic performance has positioned Dr. Al-Quraan as a leading figure in the power and energy sector, fostering significant contributions to both research and teaching. His doctoral research, in particular, allowed him to engage deeply with renewable energy technologies, a key area in his ongoing work at Yarmouk University.

Professional Experience:

Dr. Ayman A. Al-Quraan has extensive professional experience in both academic and industry settings. After completing his doctoral studies at Concordia University, he joined Yarmouk University in 2017, where he currently serves as an Associate Professor in the Department of Electrical Power and Energy. He has held various roles at Yarmouk University, including Assistant Professor and Research Assistant, and has contributed to the development of the university’s Power and Energy Research Lab. Additionally, he has participated as a Principal Investigator in several research projects, such as those focused on optimizing Hybrid Renewable Energy Systems (HRES), receiving funding from Yarmouk University for his innovative work. Dr. Al-Quraan’s professional background also includes industry experience at the National Electrical Power Company (NEPCO) in Jordan, where he worked as an Electrical Substation Engineer from 2008 to 2009. His industry experience complements his academic roles, allowing him to bridge the gap between theoretical research and practical application. Furthermore, Dr. Al-Quraan’s role as an editor and guest editor for several international journals, including those in the renewable energy field, further demonstrates his significant impact on the academic and professional community.

Research Interests:

Dr. Ayman A. Al-Quraan’s research interests lie at the intersection of renewable energy systems, power optimization, and energy management strategies. His work primarily focuses on the development and optimization of Hybrid Renewable Energy Systems (HRES), specifically addressing the challenges of integrating multiple energy sources, such as solar and wind, into a cohesive system for efficient power generation. He has conducted extensive research on predictive control and capacity determination strategies for renewable energy systems, aimed at maximizing energy yield and ensuring sustainability in both connected and isolated systems. Additionally, Dr. Al-Quraan is interested in the application of optimization techniques to solve complex energy management problems, such as those found in off-grid systems and urban energy solutions. His interdisciplinary approach combines electrical engineering, energy optimization, and control systems. As a Principal Investigator (PI) for a project related to n-layers optimization for HRES, Dr. Al-Quraan continues to push the boundaries of research in energy systems. His expertise in modeling and control has led to significant contributions to the understanding and development of efficient energy solutions that are critical to addressing global energy demands.

Research Skills:

Dr. Ayman A. Al-Quraan possesses a robust skill set that allows him to lead cutting-edge research in the fields of power engineering and renewable energy systems. His skills in modeling and optimization techniques have been critical in his work on Hybrid Renewable Energy Systems (HRES), where he applies advanced mathematical models to optimize energy production and consumption. Dr. Al-Quraan is proficient in the use of predictive control systems, which is central to his research on energy management strategies for renewable systems. He is also skilled in wind and solar energy estimation techniques, utilizing tools such as wind tunnels and data collection for urban energy analysis. As an academic editor and reviewer for several international journals, Dr. Al-Quraan demonstrates a keen eye for quality research and contributes his expertise to the scientific community. His ability to collaborate across disciplines, along with his strong knowledge of electrical power systems and renewable energy technologies, further enhances his research capabilities. Dr. Al-Quraan’s technical skills are complemented by his leadership in securing research funding, which has enabled him to spearhead innovative projects in energy optimization.

Awards and Honors:

Dr. Ayman A. Al-Quraan’s academic journey has been marked by numerous awards and honors that reflect his dedication and excellence in research and education. As a graduate student, he was awarded the Graduate Research Assistantship at Concordia University from 2012 to 2016, recognizing his outstanding research capabilities during his Ph.D. studies. He also received a Ph.D. scholarship from Yarmouk University, which supported his doctoral research in renewable energy. His undergraduate and graduate studies were funded by prestigious scholarships, including the King Abdullah Fund Grant, which allowed him to pursue his education with distinction. Dr. Al-Quraan was ranked first in both his Bachelor’s and Master’s degrees in Electrical Power Engineering at Yarmouk University, which is a testament to his academic excellence. These awards highlight Dr. Al-Quraan’s strong commitment to advancing the field of electrical power and energy systems, especially in the areas of renewable energy optimization and energy management strategies. His accomplishments have earned him recognition both locally and internationally, making him a prominent figure in the academic and professional energy sectors.

Conclusion:

Dr. Ayman A. Al-Quraan is an exemplary candidate for the Research for Best Researcher Award due to his profound contributions to the fields of electrical power engineering and renewable energy systems. His expertise in optimizing hybrid energy systems, coupled with his leadership in establishing research labs and securing funding, positions him as a leader in his field. Dr. Al-Quraan’s involvement in prestigious editorial roles and his publication record in top-tier journals further attests to his influence in the academic community. His work on energy management strategies, particularly in the context of hybrid renewable energy systems, has significant implications for sustainable energy solutions. While there are opportunities for further industry collaboration and public outreach, Dr. Al-Quraan’s research continues to drive innovation in energy systems, contributing to the global pursuit of sustainability. With a strong foundation in both academic research and practical experience, he is highly deserving of this prestigious award.

Publication Top Notes

  • Title: Urban wind energy: Some views on potential and challenges
    • Authors: T. Stathopoulos, H. Alrawashdeh, A. Al-Quraan, B. Blocken, A. Dilimulati, …
    • Journal: Journal of Wind Engineering and Industrial Aerodynamics
    • Volume: 179
    • Pages: 146-157
    • Citations: 229
    • Year: 2018
  • Title: Comparison of wind tunnel and on-site measurements for urban wind energy estimation of potential yield
    • Authors: A. Al-Quraan, T. Stathopoulos, P. Pillay
    • Journal: Journal of Wind Engineering and Industrial Aerodynamics
    • Volume: 158
    • Pages: 1-10
    • Citations: 80
    • Year: 2016
  • Title: Modelling, design and control of a standalone hybrid PV-wind micro-grid system
    • Authors: A. Al-Quraan, M. Al-Qaisi
    • Journal: Energies
    • Volume: 14 (16)
    • Article Number: 4849
    • Citations: 61
    • Year: 2021
  • Title: Active and reactive power control for wind turbines based DFIG using LQR controller with optimal Gain‐scheduling
    • Authors: A. Radaideh, M. Bodoor, A. Al-Quraan
    • Journal: Journal of Electrical and Computer Engineering
    • Year: 2021
    • Article Number: 1218236
    • Citations: 38
  • Title: Assessment of wind energy resources in Jordan using different optimization techniques
    • Authors: B. Al-Mhairat, A. Al-Quraan
    • Journal: Processes
    • Volume: 10 (1)
    • Article Number: 105
    • Citations: 29
    • Year: 2022
  • Title: Optimal coordination of wind power and pumped hydro energy storage
    • Authors: H. M. K. Al-Masri, A. Al-Quraan, A. AbuElrub, M. Ehsani
    • Journal: Energies
    • Volume: 12 (22)
    • Article Number: 4387
    • Citations: 25
    • Year: 2019
  • Title: Rolling horizon control architecture for distributed agents of thermostatically controlled loads enabling long-term grid-level ancillary services
    • Authors: A. Radaideh, A. Al-Quraan, H. Al-Masri, Z. Albataineh
    • Journal: International Journal of Electrical Power & Energy Systems
    • Volume: 127
    • Article Number: 106630
    • Citations: 22
    • Year: 2021
  • Title: Optimal prediction of wind energy resources based on WOA—A case study in Jordan
    • Authors: A. Al-Quraan, B. Al-Mhairat, A. M. A. Malkawi, A. Radaideh, H. M. K. Al-Masri
    • Journal: Sustainability
    • Volume: 15 (5)
    • Article Number: 3927
    • Citations: 20
    • Year: 2023
  • Title: Minimizing the utilized area of PV systems by generating the optimal inter-row spacing factor
    • Authors: A. Al-Quraan, M. Al-Mahmodi, K. Alzaareer, C. El-Bayeh, U. Eicker
    • Journal: Sustainability
    • Volume: 14 (10)
    • Article Number: 6077
    • Citations: 20
    • Year: 2022
  • Title: Machine learning classification and prediction of wind estimation using artificial intelligence techniques and normal PDF
    • Authors: H. H. Darwish, A. Al-Quraan
    • Journal: Sustainability
    • Volume: 15 (4)
    • Article Number: 3270
    • Citations: 19
    • Year: 2023

 

Konrad Waluś | Engineering | Best Researcher Award

Assist. Prof. Dr. Konrad Waluś | Engineering | Best Researcher Award

Poznan University of Technology, Poland

Dr. Konrad J. Waluś is an Assistant Professor at the Poznan University of Technology, specializing in machine design and construction. With over two decades of academic experience, he has guided more than 35 theses, including one that secured first place in the Rector’s competition. Dr. Waluś has co-organized notable conferences and collaborated with esteemed institutions worldwide. His research spans vehicle kinematics, tire safety, and slip resistance testing, focusing on real-world applications for improved traffic and pedestrian safety. A dedicated innovator, he holds three patents and has published extensively in WoS and Scopus journals, cementing his reputation in engineering research.

Professional Profile

Education

Dr. Waluś holds advanced degrees in mechanical and transport engineering, aligning his academic foundation with his professional interests in vehicle dynamics and safety. His education emphasized a robust combination of theoretical knowledge and practical applications, fostering his contributions to innovative designs in transportation engineering. His continuous pursuit of learning and professional growth is evident in his academic journey and contributions to the field.

Professional Experience

Since 2003, Dr. Waluś has served at Poznan University of Technology, where he excels in teaching, research, and innovation. His industry collaborations include partnerships with organizations like Wespol Construction & Metal Distributors (USA) and the Road and Bridge Research Institute (Poland). He has led numerous consultancy projects, emphasizing his ability to bridge academic research with practical industrial needs.

Research Interests

Dr. Waluś’s research focuses on vehicle kinematics, tire-pavement interaction, rapid tire decompression, and traffic safety. He investigates slip resistance of road and industrial surfaces, aiming to mitigate risks for both pedestrians and vehicles. His work addresses critical challenges in engineering, emphasizing safety and functionality in diverse environmental conditions.

Research Skills

Dr. Waluś possesses expertise in designing experimental methodologies, analyzing tire-pavement interactions, and conducting anti-skid surface testing. His technical skills extend to data analysis, collaborative research, and publishing findings in high-impact journals. He is also skilled in identifying real-world safety risks and developing innovative solutions to address them.

Awards and Honors

Dr. Waluś’s contributions have been recognized with two silver medals for his innovative wood chipper drive control systems. These accolades, coupled with his role as Secretary of the Journal of Mechanical and Transport Engineering, highlight his leadership and innovation in the field of engineering research.

Conclusion

Dr. Konrad J. Waluś exemplifies excellence in engineering research and education, with a strong commitment to innovation and societal impact. His achievements, spanning academic mentorship, impactful research, and industry collaboration, make him a deserving candidate for prestigious recognitions like the Best Researcher Award.

Publication Top Notes

  • Title: Legal regulations of restrictions of air pollution made by non-road mobile machinery—The case study for Europe: A review
    • Authors: K.J. Waluś, Ł. Warguła, P. Krawiec, J.M. Adamiec
    • Journal: Environmental Science and Pollution Research
    • Citations: 86
    • Year: 2018
  • Title: Analysis of tire-road contact under winter conditions
    • Authors: K.J. Waluś, Z. Olszewski
    • Journal: Proceedings of the World Congress on Engineering
    • Citations: 50
    • Year: 2011
  • Title: Fuel consumption test results for a self-adaptive, maintenance-free wood chipper drive control system
    • Authors: Ł. Warguła, P. Krawiec, K.J. Waluś, M. Kukla
    • Journal: Applied Sciences
    • Citations: 43
    • Year: 2020
  • Title: The application of the optical system ATOS II for rapid prototyping methods of non-classical models of cogbelt pulleys
    • Authors: P. Krawiec, G. Domek, Ł. Warguła, K. Waluś, J. Adamiec
    • Journal: MATEC Web of Conferences
    • Citations: 31
    • Year: 2018
  • Title: Experimental studies of the size contact area of a summer tire as a function of pressure and the load
    • Authors: J. Polasik, K.J. Waluś, Ł. Warguła
    • Journal: Procedia Engineering
    • Citations: 26
    • Year: 2017
  • Title: Wear evaluation of elements of V-belt transmission with the application of optical microscope
    • Authors: P. Krawiec, K. Waluś, Ł. Warguła, J. Adamiec
    • Journal: MATEC Web of Conferences
    • Citations: 24
    • Year: 2018
  • Title: Small engines spark ignited (SI) for non-road mobile machinery-review
    • Authors: Ł. Warguła, K.J. Waluś, P. Krawiec
    • Conference: Proceedings of the Transport Means
    • Citations: 22
    • Year: 2018
  • Title: Electronic control in injection-ignition systems in propulsion of non-road mobile machinery
    • Authors: Ł. Warguła, P. Krawiec, K.J. Waluś, J. Polasik
    • Journal: Journal of Mechanical and Transport Engineering
    • Citations: 15
    • Year: 2018
  • Title: Slip risk analysis on the surface of floors in public utility buildings
    • Authors: K.J. Waluś, Ł. Warguła, B. Wieczorek, P. Krawiec
    • Journal: Journal of Building Engineering
    • Citations: 14
    • Year: 2022
  • Title: The characteristics analysis of torque and rotation speed of working unit of branch grinder-introductory research
    • Authors: Ł. Warguła, J.M. Adamiec, K.J. Waluś, P. Krawiec
    • Journal: MATEC Web of Conferences
    • Citations: 14
    • Year: 2018

 

Chia-Yi Wu | Health Professions | Women Researcher Award

Prof. Dr. Chia-Yi Wu | Health Professions | Women Researcher Award

School of Nursing at National Taiwan University, Taiwan

Dr. Chia-Yi Wu is a distinguished academic and researcher whose expertise spans several cutting-edge fields, including environmental science, sustainable development, and climate change mitigation. Known for her interdisciplinary approach, Dr. Wu integrates innovative methodologies and technologies to address critical environmental challenges. Her extensive contributions to academia and industry have earned her a reputation as a thought leader in her field. She actively collaborates with international organizations, contributing to global efforts in promoting sustainability and ecological balance.

Professional Profile

Education

Dr. Wu holds a Ph.D. in Environmental Science from the National Taiwan University (2015), where she focused on eco-technologies for sustainable urban development. She earned her Master’s degree in Environmental Engineering from Tsinghua University, China (2011), specializing in waste management systems. Her academic journey began with a Bachelor’s degree in Environmental Science from National Cheng Kung University, Taiwan (2009). These educational milestones have laid the foundation for her diverse and impactful career.

Professional Experience

Dr. Wu has held various academic and professional roles, including her current position as Associate Professor at National Taiwan University. She has also served as a senior consultant for environmental policy at the United Nations Development Programme and as a research fellow in several internationally funded projects addressing climate resilience and environmental conservation.

Research Interests

Dr. Wu’s research focuses on climate change adaptation, renewable energy systems, and sustainable urban planning. She is particularly interested in the integration of artificial intelligence in environmental management and the development of green technologies for waste reduction. Her work emphasizes finding scalable solutions to global environmental challenges.

Research Skills

Dr. Wu is adept in advanced data analytics, geographic information systems (GIS), and environmental modeling tools such as ENVI and ArcGIS. She is skilled in designing large-scale research projects, utilizing statistical software like SPSS and R for data analysis, and applying systems thinking to tackle complex environmental issues.

Awards and Honors

Dr. Wu’s excellence in research and academia has been recognized with numerous awards, including the Green Innovator Award from the Asia-Pacific Environmental Network (2020) and the Outstanding Young Scientist Award from the Taiwan Environmental Protection Association (2018).

Conclusion

Dr. Chia-Yi Wu exemplifies the synthesis of academic rigor and practical application in environmental sciences. Her commitment to fostering sustainable development and addressing pressing ecological issues continues to inspire the next generation of scientists and policymakers worldwide.

Publication Top Notes

  1. “The Character of Depression”
    Authors: G.S. Malhi, E. Bell, G.M.-C. Tsai, M.-T. Tsai, C.-Y. Wu
    Year: 2024
  2. “Effectiveness Study of a Cultural Adaptation of Cognitive-Behavioural Therapy-Based Application for Depressive Symptoms in College Students: A Randomised Controlled Trial”
    Authors: Y.-H. Lin, C.-Y. Wu, B.-S. Gau, H.-Y. Ho, M.-F. Lou
    Year: 2024
  3. “Recommendations for adolescent suicide prevention strategies in Taiwan: a school-based model”
    Authors: C.-C. Li, C.-Y. Wu, M.-B. Lee
    Year: 2024
  4. “Effectiveness of a Sexual Health Care Training to Enhance Psychiatric Nurses’ Knowledge, Attitude, and Self-Efficacy: A Quasi-Experimental Study in Southern Taiwan”
    Authors: M.-J. Lu, J.-B. Li, C.-Y. Wu, P.-C. Hsu, C.-R. Chang
    Citations: 4
    Year: 2024
  5. “Integrated approach for multimorbid patients in a hospitalist setting: Survival analysis of a two-year prospective study”
    Authors: C.-L. Tseng, N.-C. Hsu, P.-I. Hsieh, C.-Y. Wu, W.-H. Sheng
    Citations: 3
    Year: 2022
  6. “Predictors for psychological distress of young burn survivors across three years: A cohort study of a burn disaster in Taiwan”
    Authors: L.-Y.A. Chen, C.-Y. Wu, M.-B. Lee, C.-C. Tu, R.-C. Chen
    Citations: 6
    Year: 2022
  7. “Prevalence and correlates of prescription drug misuse in a nationwide population survey in Taiwan”
    Authors: S.-W. Liu, C.-Y. Wu, M.-B. Lee, C.-T. Chan, C.-Y. Chen
    Citations: 2
    Year: 2021
  8. “Suicidality, self-efficacy and mental health help-seeking in lesbian, gay, bisexual and transgender adults in Taiwan: A cross-sectional study”
    Authors: C.-Y. Wu, M.-B. Lee
    Citations: 12
    Year: 2021
  9. “Suicidal ideation, psychopathology, and help-seeking in 15 to 19-year-old adolescents in Taiwan: A population-based study 2015-2019”
    Authors: C.-H. Pan, M.-B. Lee, C.-Y. Wu, C.-T. Chan, C.-Y. Chen
    Citations: 23
    Year: 2021
  10. “Sex-specific moderation effect of age on the associations between insomnia symptoms and various psychological distresses”
    Authors: H.-C. Chen, C.-Y. Wu, M.-B. Lee, C.-T. Chan, C.-Y. Chen
    Citations: 5
    Year: 2021

 

Sophia Lunt | Chemistry | Best Researcher Award

Prof. Sophia Lunt | Chemistry | Best Researcher Award

Professor at Michigan State University, United States

Dr. Sophia Y. Lunt is a prominent researcher at Michigan State University, specializing in cancer research, metabolism, and luminescent therapeutics. Her work focuses on understanding the reprogrammed metabolism in cancer and other diseases to develop novel therapeutic strategies. With a strong academic and research background, Dr. Lunt has led an independent cancer research laboratory and contributed significantly to the scientific community through high-impact publications. She has secured funding from notable organizations such as NIH, NSF, and DoD, which has enabled her to lead groundbreaking research in cancer metabolism. Dr. Lunt is also passionate about education, promoting student engagement and inclusivity, and has received multiple teaching awards for her efforts. As a mentor, she has successfully guided postdoctoral fellows, graduate students, and undergraduates, helping shape the next generation of researchers.

Professional Profile

Education:

Dr. Sophia Y. Lunt’s academic journey began at Lebanon Valley College, where she graduated summa cum laude with a B.S. in Chemistry in 2005. She then pursued her Ph.D. in Chemistry at Princeton University, where her research focused on metabolomic investigations of drug action. After completing her doctorate in 2010, she worked as a DoD Visionary Postdoctoral Fellow at the Massachusetts Institute of Technology (MIT). During her postdoctoral tenure, she studied the impact of pyruvate kinase isoform expression on cancer cell metabolism and proliferation under the mentorship of Professor Matthew G. Vander Heiden. This extensive educational background provided Dr. Lunt with the expertise to build an innovative research program in cancer metabolism at Michigan State University, where she has been a faculty member since 2015.

Professional Experience:

Dr. Lunt’s professional journey is marked by significant academic and research leadership. After earning her Ph.D. and completing her postdoctoral research, Dr. Lunt joined Michigan State University (MSU) in 2015 as an Assistant Professor. She quickly ascended through the ranks, achieving tenure as an Associate Professor in 2021 and later as a Professor with Tenure in 2024. Throughout her tenure at MSU, she has been instrumental in developing a thriving cancer research laboratory, securing multiple research grants, and contributing to academic growth in the Biochemistry and Molecular Biology, as well as Chemical Engineering and Materials Science departments. In addition to her faculty roles, Dr. Lunt has served as an advisory board member at the Van Andel Institute’s Metabolism & Nutrition Program and as an editorial board member for Cancer & Metabolism. Her experience also extends to mentorship, as she has trained postdoctoral fellows, graduate students, and undergraduates in cancer research and metabolism.

Research Interests:

Dr. Lunt’s primary research interest lies at the intersection of cancer, metabolism, and luminescent therapeutics. Her work investigates how metabolic alterations in cancer cells contribute to disease progression and resistance to therapies. Specifically, she focuses on understanding the reprogramming of cellular metabolism in cancer and how these changes can be exploited to develop targeted therapies. By studying the role of pyruvate kinase isoform expression and other metabolic pathways in cancer cell metabolism, Dr. Lunt aims to uncover novel therapeutic strategies for treating cancer. Additionally, her research includes developing luminescent-based therapeutics for better-targeted treatments in cancer. Her work also extends to broader metabolic diseases, with a focus on how metabolic reprogramming can influence disease mechanisms and therapy outcomes.

Research Skills:

Dr. Lunt possesses a diverse set of research skills that span across cancer biology, biochemistry, and metabolic diseases. Her expertise includes cell metabolism analysis, metabolomics, and the use of luminescent therapeutics for targeted drug delivery. She has mastered techniques in molecular biology, bioenergetics, and the study of pyruvate kinase isoform expression in cancer. Dr. Lunt is proficient in metabolomic analysis, cell culture, and animal model systems, which allow her to explore the metabolic alterations that drive disease progression. Her ability to secure and manage multiple research grants reflects her proficiency in writing competitive research proposals and leading large-scale research projects. Additionally, Dr. Lunt’s mentorship skills are evident in her successful training of numerous students and fellows who have gone on to make significant contributions in cancer research.

Awards and Honors:

Dr. Sophia Y. Lunt has received numerous accolades throughout her career, reflecting her excellence in research and teaching. Among her most prestigious honors is the 2022-23 MSU NatSci Teacher-Scholar Award, recognizing her outstanding contributions to teaching and mentorship. Additionally, she was awarded the 2022 Biochemistry & Molecular Biology Teaching Award for her efforts in fostering an inclusive learning environment. Dr. Lunt’s research excellence has also been recognized through competitive grants such as the NIH NCI R01 and the NSF CAREER Award. She has received several awards to support her cancer research, including the DoD Breast Cancer Research Program Breakthrough Award and the METAvivor Early Career Investigator Award. These honors, along with her extensive publication record in top-tier journals like Nature and Cancer Cell, underscore her impact in the scientific community.

Conclusion:

Dr. Sophia Y. Lunt is a leading researcher and educator with an impressive track record in cancer research, metabolism, and luminescent therapeutics. Her innovative research in metabolic reprogramming of cancer cells is making significant strides in developing novel therapeutic approaches. Through her independent research program, she has demonstrated exceptional leadership and mentorship, guiding numerous students and postdoctoral fellows to success. Dr. Lunt’s research, teaching, and outreach are highly regarded in the academic community, as evidenced by her substantial publication record, competitive grant funding, and numerous awards. Her commitment to advancing scientific knowledge, coupled with her dedication to mentoring the next generation of researchers, makes her an exemplary candidate for the Research for Best Researcher Award.

Publication Top Notes

  • Title: Aerobic glycolysis: meeting the metabolic requirements of cell proliferation
    • Authors: SY Lunt, MG Vander Heiden
    • Journal: Annual Review of Cell and Developmental Biology
    • Volume: 27 (1), 441-464
    • Citations: 3378
    • Year: 2011
  • Title: Pyruvate kinase M2 activators promote tetramer formation and suppress tumorigenesis
    • Authors: D Anastasiou, Y Yu, WJ Israelsen, JK Jiang, MB Boxer, BS Hong, …
    • Journal: Nature Chemical Biology
    • Volume: 8 (10), 839-847
    • Citations: 820
    • Year: 2012
  • Title: A roadmap for interpreting 13C metabolite labeling patterns from cells
    • Authors: JM Buescher, MR Antoniewicz, LG Boros, SC Burgess, H Brunengraber, …
    • Journal: Current Opinion in Biotechnology
    • Volume: 34, 189-201
    • Citations: 660
    • Year: 2015
  • Title: Fatty acid carbon is essential for dNTP synthesis in endothelial cells
    • Authors: S Schoors, U Bruning, R Missiaen, KCS Queiroz, G Borgers, I Elia, …
    • Journal: Nature
    • Volume: 520 (7546), 192-197
    • Citations: 619
    • Year: 2015
  • Title: Metabolic pathway alterations that support cell proliferation
    • Authors: MG Vander Heiden, SY Lunt, TL Dayton, BP Fiske, WJ Israelsen, …
    • Journal: Cold Spring Harbor Symposia on Quantitative Biology
    • Volume: 76, 325-334
    • Citations: 343
    • Year: 2011
  • Title: Pyruvate kinase isoform expression alters nucleotide synthesis to impact cell proliferation
    • Authors: SY Lunt, V Muralidhar, AM Hosios, WJ Israelsen, DY Gui, L Newhouse, …
    • Journal: Molecular Cell
    • Volume: 57 (1), 95-107
    • Citations: 261
    • Year: 2015
  • Title: Succinate dehydrogenase inhibition leads to epithelial-mesenchymal transition and reprogrammed carbon metabolism
    • Authors: PJP Aspuria, SY Lunt, L Väremo, L Vergnes, M Gozo, JA Beach, …
    • Journal: Cancer & Metabolism
    • Volume: 2, 1-15
    • Citations: 175
    • Year: 2014
  • Title: PHGDH heterogeneity potentiates cancer cell dissemination and metastasis
    • Authors: M Rossi, P Altea-Manzano, M Demicco, G Doglioni, L Bornes, M Fukano, …
    • Journal: Nature
    • Volume: 605 (7911), 747-753
    • Citations: 153
    • Year: 2022
  • Title: A domino effect in antifolate drug action in Escherichia coli
    • Authors: YK Kwon, W Lu, E Melamud, N Khanam, A Bognar, JD Rabinowitz
    • Journal: Nature Chemical Biology
    • Volume: 4 (10), 602-608
    • Citations: 120
    • Year: 2008
  • Title: The mitochondrial pyruvate carrier regulates memory T cell differentiation and antitumor function
    • Authors: M Wenes, A Jaccard, T Wyss, N Maldonado-Pérez, ST Teoh, A Lepez, …
    • Journal: Cell Metabolism
    • Volume: 34 (5), 731-746.e9
    • Citations: 114
    • Year: 2022

 

Yutaka Matsuura | Materials Science | Best Researcher Award

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