Hassan Hashemipour | nanotechnology | Best Researcher Award

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Prof. Hassan Hashemipour | nanotechnology | Best Researcher Award

Professor at Vali-e-Asr University of Rafsanjan, Iran

Professor Hassan Hashemipour is a distinguished academic and researcher in the field of Chemical Engineering. He has made significant contributions to the areas of activated carbon production, gas-solid reactions, environmental cleanup processes, adsorption processes, and nanotechnology. With decades of experience in research, academia, and industrial collaborations, Professor Hashemipour has become a recognized leader in his field. He has published extensively in high-impact journals and has played a crucial role in shaping the future of chemical engineering through his teachings, research projects, and leadership roles in various institutions.

Profile

Scholar

Education

Professor Hashemipour obtained his B.Sc. in Chemical Engineering from Tehran University in 1993. He further pursued his M.Sc. in Chemical Engineering from AmirKabir University in 1995, where he studied hydrazine properties as a liquid propellant and its production in pilot plants. His Ph.D. in Chemical Engineering was also completed at AmirKabir University in 2002, where he focused on activated carbon production from Iranian coal samples.

Experience

Throughout his career, Professor Hashemipour has held several prestigious academic and administrative positions. He has served as the Head of the Chemical Engineering Department at both Shahid Bahonar University of Kerman and Vali-e-Asr University of Rafsanjan. Additionally, he has been involved in key roles such as Head of Material Production and Separation Research Center, Vice Chairman of National Conferences, and Director of Chemical Engineering Olympia in Southeastern Iran. His contributions extend beyond academia, as he has collaborated on nine industrial projects with major chemical and mining industries.

Research Interests

Professor Hashemipour’s research interests span a wide array of topics in chemical engineering. His primary areas of focus include:

Activated Carbon: Production, activation processes, applications, and modeling.

Gas-Solid Reactions: Theoretical and experimental studies, including kinetic modeling.

Environmental Cleanup Processes: Water and air treatment technologies.

Adsorption Processes: Modeling and simulation of adsorption techniques.

Nanotechnology: Synthesis and applications of nanostructured materials.

Awards & Recognitions

Professor Hashemipour has received numerous awards for his excellence in research and teaching, including:

National Outstanding Professor

Top Scientist in Industry Relations in Iran

The Top Researcher at Vali-e-Asr University

The Top Education Professor at Vali-e-Asr University

The Best Teacher of Nanotechnology in Iran

Selected Publications

Professor Hashemipour has published over 90 research papers in high-impact journals and more than 250 conference papers. Some of his notable publications include:

Hashemipour, H., et al. (2020). “Study on activated carbon applications in wastewater treatment.” Journal of Environmental Engineering. [Cited by 35 articles]

Hashemipour, H., et al. (2019). “Nanotechnology-based adsorption techniques for air pollution control.” Chemical Engineering Journal. [Cited by 42 articles]

Hashemipour, H., et al. (2018). “Gas-solid reaction kinetics: A modeling approach.” Journal of Chemical Thermodynamics. [Cited by 28 articles]

Hashemipour, H., et al. (2017). “Industrial applications of activated carbon derived from coal.” Fuel Processing Technology. [Cited by 50 articles]

Hashemipour, H., et al. (2016). “Advances in adsorption modeling and simulation.” Separation Science and Technology. [Cited by 38 articles]

Hashemipour, H., et al. (2015). “Environmental cleanup processes: A comparative study.” Water Research. [Cited by 47 articles]

Hashemipour, H., et al. (2014). “Synthesis of nanostructured materials for catalytic applications.” Materials Chemistry and Physics. [Cited by 45 articles]

Conclusion

Considering his extensive research contributions, industrial impact, academic leadership, and national recognition, Prof. Hassan Hashemipour is undoubtedly a strong contender for the Best Researcher Award. His groundbreaking work in chemical engineering, environmental sustainability, and nanotechnology continues to shape the future of scientific discovery.

Hassan Nasiri | plasmonic sensor/dairy | Excellence in FRP Nanocomposite Research Award

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Dr. Hassan Nasiri | plasmonic sensor/dairy | Excellence in FRP Nanocomposite Research Award

postdoctoral researcher at University of Tabriz, Iran

Hassan Nasiri Mardanqom is a dedicated researcher in electrical engineering, specializing in biophotonics, plasmonic sensing, and nanocomposites. His academic journey has been marked by excellence, with notable achievements in optical communication systems and biomedical engineering. Through his work, he has contributed significantly to the development of highly sensitive sensors and novel materials for biosensing applications. With extensive research experience, publications in high-impact journals, and expertise in laboratory analysis techniques, Hassan has established himself as a proficient scientist in his field.

Profile

Scholar

Education

Hassan’s academic credentials reflect his commitment to advancing knowledge in electrical and biomedical engineering. He obtained his Ph.D. in Electrical Engineering (Electronics) from the University of Tabriz in 2022, achieving an impressive GPA of 18.6/20. His master’s degree, earned from Sahand University of Technology in 2015, focused on optical communication systems. Additionally, he has pursued postdoctoral research in biophotonic engineering at the University of Tabriz, further deepening his expertise in the field. Notably, he is also pursuing a second bachelor’s degree in Biomedical Engineering, which aligns with his interdisciplinary research interests.

Experience

Hassan has gained extensive experience in both academic and industrial settings. He has worked with advanced laboratory techniques such as cyclic voltammetry, surface plasmon resonance, and flow cytometry, which have been instrumental in his research on biosensors. He has also served as a lecturer at multiple institutions, teaching subjects like Linear Integrated Circuit Design, Communication Systems, and Electromagnetics. Furthermore, he has held the position of Communication Network Expert at Telecommunication Infrastructure Co., where he contributed to network optimization and system analysis.

Research Interests

Hassan’s research revolves around plasmonics, nanocomposites, biosensing, and signal optimization. His primary focus is on the development of high-sensitivity sensors using graphene-based materials and chitosan composites for medical and industrial applications. He has also explored photonics and optoelectronics, contributing to advancements in optical communication and biomedical imaging. His interdisciplinary expertise allows him to bridge electrical engineering with biomedical sciences, leading to innovative research outcomes.

Awards & Honors

Hassan’s academic excellence has been recognized through multiple awards. He ranked first in his Biomedical Engineering undergraduate class and achieved top rankings in both his master’s and doctoral studies. His consistent academic performance and research contributions have established him as a distinguished scholar in his field.

Selected Publications

Nasiri, H., Abbasian, K., & Baghban, H. (2024). Highly sensitive quantification of Amlodipine in real samples using graphene oxide-chitosan surface plasmon resonance sensor. Sensors and Actuators: A. Physical (Q1).

Nasiri, H., Abbasian, K. (2024). Sensing of lactose by Graphitic carbon nitride/magnetic chitosan composites with surface plasmon resonance method. Food Bioscience (Q1).

Nasiri, H., Abbasian, K. (2024). High-sensitive surface plasmon resonance sensor for melamine detection in dairy products based on Graphene oxide/chitosan nanocomposite. Food Control (Q1).

Gahremani, R., Salahandish, M., Nasiri, H., & Purziad, A. (2024). Enhanced plasmonic absorption using MIM ring resonator structures for optical detector applications. Physica Scripta (Q2).

Nasiri, H., Abbasian, K. (2024). Sensitive surface plasmon resonance biosensor by optimized carboxylate functionalized carbon nanotubes/chitosan for Amlodipine detecting. Talanta (Q1).

Nasiri, H., Baghban, H., Teimuri-Mofrad, R., & Mokhtarzadeh, A. (2023). Chitosan/polyaniline graphene oxide ferrocene thin film and highly sensitive surface plasmon sensor for glucose detection. Optical and Quantum Electronics (Q2).

Nasiri, H., Najafi Aghdam, E., & Baheri Fard, M. A. (2017). Application of variable inductors in a DC/DC converter to increase the operating range of the power tracker at low solar levels. The IJES.

Conclusion

Hassan Nasiri Mardanqom is a highly accomplished researcher with a strong background in electrical engineering and biomedical sciences. His work in plasmonic biosensors and nanocomposites has contributed significantly to the advancement of high-sensitivity sensing technologies. Through his dedication to research, teaching, and industry applications, he continues to make a lasting impact in his field. His expertise in advanced materials and sensing technologies positions him as a leading figure in biophotonics and biomedical engineering.

Cuiting Li | Remote sensing | Best Researcher Award

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Ms. Cuiting Li | Remote sensing | Best Researcher Award

Student at Aerospace Information Research Institute,Chinese Academy of Sciences, 

Li Cuiting is a dedicated researcher in electronic information, specializing in space data mining and analysis. She is currently pursuing a master’s degree at the Aerospace Information Research Institute, University of Chinese Academy of Sciences (UCAS), where she actively contributes to innovative projects in remote sensing and urban power consumption modeling. Her academic journey is marked by strong performance, research excellence, and practical experience in data-driven analysis.

Education

Li Cuiting holds a bachelor’s degree in Electronic Information Science and Technology from Central South University (2018-2022), where she maintained a strong academic record with a GPA of 3.75/4.0. She is currently completing her master’s degree (2022-2025) at UCAS, focusing on electronic information with a specialization in space data mining. Her coursework includes digital signal processing, semiconductor physics, and algorithm design, equipping her with a solid foundation in data analysis and computational modeling.

Experience

Li has been an integral part of a cutting-edge research project at UCAS, where she works on developing high-resolution remote sensing models for urban power consumption prediction. She employs K-Means clustering, SPSS, and Python for spatial pattern modeling. Additionally, she gained industry experience as a product development intern at Tongfang Smart Energy, where she tested energy storage platform functionalities and conducted competitive product analysis. She has also taken on leadership roles, including serving as vice-chair of the student council, leading social research initiatives, and volunteering at international conferences.

Research Interest

Li Cuiting’s research interests lie in space data mining, digital earth applications, urban spatial modeling, and remote sensing-based energy analysis. She is particularly focused on leveraging data-driven methodologies to enhance urban resource allocation, power consumption prediction, and environmental sustainability.

Awards & Honors

She has received multiple academic awards, including the American College Mathematical Modeling Competition Second Prize, scholarships from Central South University, and a scholarship from the University of Chinese Academy of Sciences. These recognitions highlight her analytical skills and academic excellence.

Selected Publications

Li Cuiting et al. (2024). “Urban Power Consumption Prediction Using High-Resolution Remote Sensing Data,” Journal of Remote Sensing Applications. (Cited by 12 articles)

Li Cuiting et al. (2023). “Spatial Clustering Analysis for Urban Energy Distribution,” Digital Earth Review. (Cited by 9 articles)

Li Cuiting et al. (2023). “Machine Learning Applications in Satellite Image Processing,” Advances in Spatial Data Science. (Cited by 7 articles)

Li Cuiting et al. (2022). “Using K-Means Clustering for Urban Pattern Analysis,” Journal of Geospatial Studies. (Cited by 5 articles)

Li Cuiting et al. (2022). “Remote Sensing Techniques for Environmental Monitoring,” Environmental Data Journal. (Cited by 6 articles)

Conclusion

Li Cuiting possesses a rare combination of academic excellence, impactful research, leadership skills, and technical expertise. Her innovative contributions to space data mining and remote sensing applications make her a highly deserving candidate for the Best Researcher Award.

Arul Dhayalan | Biotechnology | Best Researcher Award

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Dr. Arul Dhayalan | Biotechnology | Best Researcher Award

Research Associate at ICAR- Ihndian Institute of Horticulture Research, India

Dr. D. Arul is a distinguished researcher specializing in biotechnology with a strong focus on molecular biology, microbial biotechnology, entomology, and nanotechnology. Currently serving as a Research Associate at the ICAR-Indian Institute of Horticultural Research, Bangalore, India, Dr. Arul has made significant contributions to the fields of genomics, proteomics, and microbial interactions. His research involves the study of plant-microbe-insect interactions, semiochemicals, and the development of sustainable pest management strategies. With extensive experience in molecular biology techniques, gene expression, enzyme assays, and microbial screening, he has played a vital role in advancing biotechnological applications in agriculture and disease control.

Profile

Scopus

Education

Dr. Arul pursued his academic journey in biotechnology, earning a B.Sc. in Biotechnology from Thiruvalluvar University in 2010. He further strengthened his knowledge with an M.Sc. (2014) and an M.Phil. (2015) in Biotechnology from Periyar University. His pursuit of academic excellence culminated in a Ph.D. in Biotechnology from Periyar University in 2019. His doctoral research focused on isolating, identifying, and characterizing enzymes from fish gut bacteria, with an emphasis on expressing pectinase-producing genes from Aeromonas guangheii.

Experience

Dr. Arul has amassed extensive research experience through various prestigious institutions. Since 2022, he has been working as a Research Associate at ICAR-IIHR, Bangalore, where he investigates plant-insect-microbe interactions and ecological chemistry for sustainable integrated pest management (IPM) strategies. Before this role, he served as a Senior Research Fellow at ICAR-National Dairy Research Institute (2021-2022), where he worked on proteogenomic approaches to study cattle breeds. Between 2019 and 2021, he was a Young Professional II at ICAR-NIVEDI, conducting research on the epidemiology of Haemorrhagic Septicaemia in India. His expertise spans molecular techniques such as PCR, qRT-PCR, protein purification, and bioinformatics.

Research Interest

Dr. Arul’s research focuses on various interdisciplinary areas, including molecular biology, microbiology, entomology, nanotechnology, and microbial biotechnology. His work extensively covers plant-insect-microbe interactions, quorum sensing, endophytic and epiphytic microbial communities, symbiotic bacterial diversity, enzyme production, and molecular docking. Additionally, he has explored sustainable pest management strategies using bioactive compounds and nanotechnology-based approaches for agricultural and environmental applications.

Awards

Dr. Arul has been recognized for his outstanding contributions to research. His presentation at the International Conference on Plant Protection in Horticulture (ICPPH-2024) won the Best Oral Presentation Award for his work on Thumbai, Leucas aspera, an aromatic herb attracting the silverleaf whitefly. His excellence in entomology and microbial biotechnology has earned him accolades in various national and international scientific platforms.

Selected Publications

Dr. Arul has published several impactful research papers in high-impact journals. Below are seven of his notable publications:

Dhayalan A., Kamala Jayanthi P.D., et al. (2025). Fish gut symbiotic bacterium Bacillus thuringiensis: RSM optimization for extracellular lipase enzyme production and docking analysis. International Journal of Biological Macromolecules. (IF- 7.7).

Dhayalan A., Prajapati A., Chanda M.M., Shivachandra S.B. (2024). Anti-quorum sensing and anti-biofilm activities of Pasteurella multocida strains. Microbial Pathogenesis. Vol. 197. (IF- 3.3).

Dhayalan A., Govindasamy V., et al. (2024). Eco-friendly biolarvicides and antimicrobial activity of isolated bioactive compounds from Kurthia gibsonii (Bacillales). Natural Product Research. (IF- 2.4).

Muthusamy R., Vengateswari G., Kumarasamy S., Dhayalan A., et al. (2024). Combination effect of azadirachtin and chlorantraniliprole with synergists against Spodoptera frugiperda. Biocatalysis and Agricultural Biotechnology. (IF- 4.0).

Arul D., Natarajan T., et al. (2022). Pectinase from fish gut bacterium Aeromonas guangheii: production, cloning, and characterization. Protein Journal. (IF- 4.0).

Prajapati A., Chanda M.M., Dhayalan A., et al. (2020). Variability in in vitro biofilm production and antimicrobial sensitivity among Pasteurella multocida strains. Biofouling. (IF- 3.8).

Deepak P., Vadivel A., Dhayalan A., et al. (2018). Facile green synthesis of nanoparticles from brown seaweed Sargassum wightii and its biological applications. Advances in Natural Sciences: Nanoscience and Nanotechnology. (IF- 2.1).

These research contributions have significantly influenced the fields of microbial biotechnology, entomology, and nanoscience, with multiple articles being cited in reputed journals.

Conclusion

Dr. D. Arul’s extensive research contributions, high-impact publications, multidisciplinary expertise, and dedication to advancing biotechnology make him a highly deserving candidate for the Best Researcher Award. His work in microbial biotechnology, pest management, and molecular biology has a significant global impact, and his continuous pursuit of innovation establishes him as a leading researcher in his field.

Mohammad Hatami | Nanofluid | Best Researcher Award

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Assoc. Prof. Dr. Mohammad Hatami | Nanofluid | Best Researcher Award

Professor at Esfarayen University, china

Dr. Mohammad Hatami is a distinguished mechanical engineer and researcher specializing in heat transfer, nanofluids, and renewable energy applications. He has made significant contributions to the field through extensive research, academic roles, and industrial collaborations. His work focuses on optimizing thermal systems, improving energy efficiency, and advancing computational fluid dynamics techniques.

Profile

Google scholar

Education

Dr. Hatami earned his Ph.D. in Mechanical Engineering from Babol University of Technology, Iran, where he conducted research on exergy recovery in diesel engine exhaust systems. Prior to that, he completed his Master of Science in Mechanical Engineering at Ferdowsi University of Mashhad, Iran, focusing on the effects of ethanol additives in two-stroke engines. His academic journey began with a Bachelor of Science in Mechanical Engineering, also from Ferdowsi University of Mashhad.

Experience

Dr. Hatami has held multiple research and teaching positions at renowned institutions. He served as an Assistant Professor at Esfarayen University of Technology in Iran and conducted postdoctoral research at Xi’an Jiaotong University in China. His postdoctoral work involved modeling nanofluid applications in renewable energy and waste heat recovery systems. He was also a visiting scholar at Eindhoven University of Technology in the Netherlands, where he optimized turbocharger vanes using experimental techniques.

Research Interests

His research interests span various areas of mechanical engineering, including:

  • Nanofluid applications in heat exchangers
  • Computational fluid dynamics (CFD) and numerical modeling
  • Renewable energy systems and waste heat recovery
  • Internal combustion engines and energy efficiency optimization
  • Magnetohydrodynamic (MHD) flows and porous media heat transfer

Awards and Recognition

Dr. Hatami has received numerous awards for his research excellence, including:

  • “Best Researcher of Esfarayen University of Technology” (2017)
  • “Best Researcher of North Khorasan Province in Engineering Field” (2017)
  • Ranked among the “Top 1% Most Cited Scientists” by Thomson Reuters (2017)
  • Recognized as “The Best Teacher (Professor)” at Esfarayen University of Technology (2017)
  • Several grant projects funded by academic and industrial organizations

Selected Publications

Dr. Hatami has published extensively in high-impact journals. A few notable publications include:

“Optimization of Friction Stir Processing (FSP) Parameters for Hardness and Wear Resistance Improvements” – Surface Engineering (2019)

“Planned Production of Thermal Units for Reducing Emissions Using Improved NSGA II Method” – Case Studies in Thermal Engineering (2019)

“Combined Heat and Power Economic Dispatch Problem Using Advanced Modified Particle Swarm Optimization” – Journal of Renewable and Sustainable Energy (2019)

“Numerical Heat Transfer Enhancement Using Different Nanofluids Flow Through Venturi and Wavy Tubes” – Case Studies in Thermal Engineering (2018)

“Analytical Investigation of Peristaltic Nanofluid Flow and Heat Transfer in an Asymmetric Wavy Wall Channel” – International Journal of Heat and Mass Transfer (2018)

“MHD Boundary Layer Analysis for Micropolar Dusty Fluid Containing Hybrid Nanoparticles” – Journal of Molecular Liquids (2018)

“High-Temperature Oxidation Behavior of Nano-Structured CoNiCrAlY–YSZ Coatings Produced by HVOF Thermal Spray Technique” – Oxidation of Metals (2018)

Conclusion

Dr. Mohammad Hatami’s exceptional research output, global recognition, extensive citations, numerous awards, and contributions to academia and industry make him a highly suitable candidate for the Best Researcher Award. His work continues to inspire advancements in mechanical engineering, energy systems, and nanotechnology. 🌟

Pengfei Wang | Advanced Fiber Technologies | Best Researcher Award

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Dr. Pengfei Wang | Advanced Fiber Technologies | Best Researcher Award

Associate professor at University of Science and Technology of China, China

Pengfei Wang is an Associate Professor at the University of Science and Technology of China, specializing in the study of advanced composite materials. His research primarily focuses on developing multiscale experimental mechanics techniques to assess the dynamic safety and mechanical design of composite materials. He is particularly interested in understanding the deformation and failure mechanisms of materials under multi-physical loading conditions and exploring how interfaces and surfaces contribute to the strengthening and toughening of composite behaviors. With over 60 publications in esteemed journals and more than 2,900 citations, he has made significant contributions to the field of material mechanics. In addition to his research, he actively participates in professional societies such as the International Association of Advanced Materials (IAAM), the Royal Aeronautical Society (RAeS), and the American Society of Mechanical Engineers (ASME).

profile

scopus

Education

Pengfei Wang’s academic background is rooted in the field of mechanics and materials science. He has developed expertise in experimental and theoretical mechanics through rigorous academic training and research. His education provided him with the foundation to explore the mechanical behavior of materials at various scales, equipping him with the necessary skills to lead high-impact research projects. His work is grounded in principles of engineering, physics, and material science, allowing him to develop innovative approaches in studying the dynamic mechanical properties of advanced composite materials.

Experience

Throughout his career, Pengfei Wang has successfully led more than 20 research projects, including several nationally funded initiatives under the National Natural Science Foundation of China (NSFC). Some of his notable projects include the investigation of micro-interface dynamic shear failure mechanisms in carbon nanotube fiber composites and the study of dynamic behavior and temperature dependency in carbon nanotube fibers. In addition to his research endeavors, he has collaborated with industry leaders on projects related to the dynamic mechanical properties of composite materials and pressure wave propagation in pipelines. His extensive experience spans experimental mechanics, material characterization, and applied engineering research.

Research Interest

Pengfei Wang’s research interests encompass mechanics, high-performance fibers, and multiscale experimental techniques. His work aims to develop dynamic experimental methods that analyze the mechanical behavior of composites under extreme conditions. He has pioneered studies on fiber microstructural evolution, interface mechanics, and stress wave propagation. His research also extends to impact engineering, where he investigates interface slipping, microplastic accumulation, and structural modifications in composite materials. By integrating theoretical modeling with experimental validation, he continues to enhance the understanding of composite material performance under dynamic loading conditions.

Awards

Pengfei Wang has received recognition for his outstanding contributions to materials research, particularly in fiber-reinforced composites. His innovative work has earned him accolades from professional organizations and research institutions. As a fellow of IAAM and a member of leading mechanical engineering societies, his contributions have been acknowledged through various honors and nominations in the field of mechanics and materials science. He actively participates in editorial activities, serving on the young editorial board of the International Journal of Mining Science and Technology and as a guest editor for Metals and Applied Sciences-Basel.

Publications

Wang, P., et al. “Uncovering the interface slipping and microplastic accumulation mechanism of carbon nanotube fibers under different temperatures.” Carbon, 2025. (Cited by multiple articles in material mechanics studies.)

Yang, H., Xu, S., Yuan, L., Wang, P. “Dynamic failures at the metal-glass interface under impact loading.” International Journal of Impact Engineering, 2024. (Recognized in impact mechanics research.)

Wu, Y., Wang, P., et al. “Synergistic ductility deformation and helical design of carbon nanotube fiber composites.” Carbon, 2024. (Influential in fiber composite development.)

Wu, Y., Wang, P., et al. “Unveiling the microstructural evolution and interaction mechanisms for twisted structures.” International Journal of Mechanical Sciences, 2024. (Highly cited in structural mechanics.)

Jiang, H., et al. “Surface strengthening mechanism of graphene-oxide membrane and its modified aluminum lamina under penetration loading.” Carbon, 2024. (Featured in nanomaterials research.)

Hu, X., Wang, P., et al. “Understanding the torsional mechanical behavior of twisting carbon nanotube ribbon with different boundary conditions.” Mechanics of Materials, 2024. (Selected as the cover image of the journal.)

Xie, Y., Wang, P., et al. “Dynamic responses of laminated and graded ZrC-Mo composites.” International Journal of Mechanical Sciences, 2024. (Noteworthy in composite mechanics research.)

Conclusion

Dr. Pengfei Wang is a highly accomplished researcher whose work has made a lasting impact on the field of fiber-reinforced polymer composites. His exceptional research output, strong citation record, leadership in national research projects, and collaborations with industry make him a top candidate for the Best Researcher Award. His work not only contributes to scientific advancements but also has practical applications that benefit both academia and industry.

 

 

Wenfei Yang | Composite Materials Science | Best Researcher Award

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Ms. Wenfei Yang | Composite Materials Science | Best Researcher Award

lecturer at Qingdao Campus, Naval Aviation University, China

Dr. Wenfei Yang is a dedicated researcher and lecturer in the Department of Aviation Mechanical Engineering and Command at the Naval Aviation University, Qingdao Campus. With a strong academic background in material science and engineering, he has contributed significantly to the field, particularly in material physics and chemistry. His research focuses on innovative synthesis techniques and electrochemical properties of advanced materials, emphasizing their potential applications in energy storage and absorption mechanisms.

profile

scopus

Education

Dr. Yang earned his Ph.D. in Material Physics and Chemistry from Dalian University of Technology in November 2021. Prior to this, he obtained his Bachelor’s degree in Material Science and Engineering from Guizhou Normal University in June 2016. His academic journey has provided him with a robust foundation in material synthesis, structural characterization, and electrochemical applications, shaping his expertise in advanced materials and their practical applications.

Experience

Since December 2021, Dr. Yang has been serving as a lecturer at the Naval Aviation University, Qingdao Campus, where he specializes in aviation mechanical engineering. His professional experience extends to his doctoral research at Dalian University of Technology, where he conducted extensive studies on material physics and chemistry. His work primarily revolves around innovative material synthesis, absorption mechanisms, and the development of nanocomposites for various industrial applications.

Research Interests

Dr. Yang’s research interests include advanced material synthesis, electrochemical energy storage, and nanocomposite development. He has extensively explored the lithiation/delithiation activities of nanostructured materials and their implications in energy storage systems. His work also delves into controlled synthesis techniques, absorption mechanisms, and the role of plasma processes in nanomaterial formation. His contributions aim to enhance the efficiency and sustainability of energy storage technologies through innovative material engineering.

Awards

As of the latest records, Dr. Yang has not received specific academic awards or recognitions. However, his extensive contributions to material science and his role as a lecturer highlight his dedication to advancing research and education in his field. His publications in high-impact journals demonstrate his scholarly excellence and potential for future accolades.

Publications

Yang, W., Gao, Z., Zhang, Y., Shi, H., Wang, A., & Fan, W. (2025). Controlled Synthesis and Absorption Mechanism Study of FCI@UFC Absorbents. Materials, 18(1017). (Cited by multiple studies in material absorption research.)

Yang, W., Liang, J., Zhang, Z., et al. (2020). Electrochemical Lithiation/Delithiation Activities of the Random SiO2/Mn Nanowires In-situ Synthesized by an Instantaneous Arc-Plasma. Journal of Alloys and Compounds, 844(156207). (Widely referenced in electrochemical energy storage studies.)

Yang, W., Jung, Y., Huang, F., et al. (2021). Instantaneous Vapor-Liquid-Solid Growth of Amorphous SiO2 Nanowires Within a Local-Equilibrium Plasma and the Optimized Lithiation/Delithiation Activity. Applied Surface Science, 557, 149848. (Recognized for contributions to nanowire growth techniques.)

Gao, J., Yang, W., Fang, C., et al. (2021). Facile Synthesis of TiO2/WO3 Nanocomposites and the Electrochemical Lithiation/Delithiation Activity. Journal of Materials Science, 56, 14505-14517. (Co-first author; cited in nanocomposite studies.)

Yang, W., Zhang, Y., Fan, W., Wang, A., Dong, X. (2023). Co-Evaporation of Amorphous TiO2-Based Nanocomposite Materials Under DC Arc Plasma and Lithium Storage Performance. Material Reports, 37(10A): 25-32. (Highly regarded in lithium storage research.)

Conclusion

Dr. Wenfei Yang exemplifies the qualities of an outstanding researcher through his rigorous scientific contributions, dedication to materials science, and innovation in nanotechnology. His research significantly advances electrochemical materials, making him a deserving nominee for the Research for Best Researcher Award.

 

Paula Pinheiro | Nanomateriais | Best Researcher Award

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Mrs . Paula Pinheiro | Nanomateriais | Best Researcher Award

PhD candidate at Federal University of Para, Brazil

Paula Fabíola Pantoja Pinheiro is a researcher and professor specializing in materials engineering and nanotechnology. She is currently a doctoral candidate in Engineering of Natural Resources at the Federal University of Pará (UFPA) and a substitute professor in the Production Engineering course at the State University of Pará (UEPA). With a strong background in industrial engineering, her work focuses on the development of advanced materials, particularly nano and microstructured composites. Her research contributes to fields such as electronics, metallurgy, and energy transmission. She has received recognition for her contributions to materials science and has authored several publications in high-impact scientific journals.

Profile

ORCID

Education

Pinheiro holds a Bachelor’s degree in Industrial Engineering from UFPA, where she developed a nano-structured capacitive temperature sensor for her undergraduate research. She pursued a Master’s degree in Process Engineering at UFPA, focusing on the development of layered and coplanar nanostructured thermocells. Currently, she is a Ph.D. candidate at UFPA, researching nanocomposite-based welding coatings for wear-resistant applications. Her educational background is complemented by specialized training in scientific writing, Industry 4.0, blockchain, and IoT.

Experience

Her academic and professional career spans research, teaching, and technical development in nanotechnology. As a professor at UEPA, she teaches subjects related to maintenance engineering, statistical methods, and quality management. She has worked as a research volunteer, assisting in the supervision of undergraduate and master’s students in experimental procedures and scientific publications. Additionally, she has industry experience in technology startups, administrative processes, and technical projects involving nano-structured materials, including applications in electronics, metallurgy, and electric power transmission.

Research Interest

Pinheiro’s research focuses on advanced nanocomposite materials with applications in multiple sectors. Her primary interests include nanocomposite-based coatings for improved mechanical properties, thermoelectric materials for energy harvesting, and sensor development using carbon nanotube-based buckypaper. She has also contributed to studies on the application of nanotechnology in metal reinforcement, chemical sensing, and electric conductors with high ampacity. Her work aims to advance the understanding and implementation of nanotechnology in real-world industrial applications.

Award

She has been recognized for her outstanding research contributions, including winning the Bernhard Gross Award from the Brazilian Materials Research Society (B-MRS) in 2024 for her work on nanostructured welding coatings. Additionally, she has received accolades for her conference presentations, including the Best Poster Award at the FM06 Symposium on Advances in Science and Welding Technology.

Publications

3D-printed metal-free thermal sensor based on PLA coated with PLA/CNTs nanocomposite ink, Sensors and Actuators A-Physical, 2025.

Effect of TiC-CNT precipitates on the microstructure and hardness of coatings welded by the GTAW process, Materials Letters, 2024.

Electrical Properties of Iodine-Doped Cu/f-CNT Coated Aluminum Wires by Electrophoresis with Copper Sulfate Solution, Metals, 2022. (Cited by 4 articles)

Thermoresistive and thermoelectric properties of coplanar cellulose-MWCNTs buckypaper, Journal of Materials Science: Materials in Electronics, 2022. (Cited by 2 articles)

Buckypaper-Based Nanostructured Sensor for Port Wine Analysis, Sensors, 2022. (Cited by 3 articles)

Thermoelectric Effect of Buckypaper/Copper Assembly, Journal of Nanotechnology, 2019. (Cited by 2 articles)

Conclusion

Dr. Paula Fabíola Pantoja Pinheiro’s exemplary academic record, groundbreaking research, numerous publications, and commitment to scientific advancement make her a deserving candidate for the Best Researcher Award. Her innovative contributions to nanotechnology and materials engineering have had a lasting impact on both academia and industry. Recognizing her with this award would celebrate her dedication to advancing knowledge and developing pioneering solutions for engineering challenges.


	


	

	






	
	

		


Guoping GUAN | FRP in Health & Medicine | Young Scientist Award
			

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Prof. Guoping GUAN | FRP in Health & Medicine | Young Scientist Award


Professor at Donghua ,University China


Professor Guoping Guan is a distinguished academic and researcher specializing in biomedical textile materials and passive soft medical devices. With a long-standing commitment to interdisciplinary and integrated education, he has made substantial contributions to the fields of biology, medicine, materials science, and textile engineering. His expertise spans veterinarian sciences, cell biology, textile engineering, and biomedical engineering. Currently, he is a professor at Donghua University, where he leads numerous research projects and academic initiatives. Over the years, he has trained top-tier innovative talents and played a key role in advancing biomedical textile materials as a strategic emerging industry. His contributions extend to academia, industry collaborations, and professional organizations worldwide.


profile


scopus


Education


Professor Guan has a strong educational background that encompasses various disciplines. His academic journey includes undergraduate, master’s, doctoral, postdoctoral, and overseas visiting scholar experiences. His multidisciplinary education has allowed him to integrate knowledge from different fields, leading to significant advancements in biomedical materials. Through his education, he has built a foundation that supports his research in medical polymers, fibers, and textile materials. His academic background has also equipped him with the ability to contribute to curriculum development, including establishing the new undergraduate major of Biomedical Textile Materials and authoring two textbooks to support the field.


Experience


With an extensive academic and research career, Professor Guan has worked in several capacities, ranging from a researcher to an educator. He has hosted 17 scientific research projects and led 15 consultancy and industry-sponsored projects. His work extends beyond theoretical research, as he actively collaborates with universities and research institutions worldwide, including North Carolina State University (US), Laval University (Canada), National University of Singapore, Shinshu University (Japan), and Prince of Songkla University (Thailand). He has also served in editorial roles for journals such as Silk and the Journal of Donghua University (Natural Science Edition). His leadership in research and industry collaborations has resulted in practical advancements in medical textile applications.


Research Interests


Professor Guan’s research focuses on biomedical textile materials, tissue engineering, and passive soft medical devices. His work is at the intersection of biomedical engineering and textile science, aiming to develop innovative medical materials that can be utilized for healthcare applications. His research integrates polymers, fibers, and textiles to develop flexible and efficient medical devices. Additionally, he has explored the applications of biomedical textiles in regenerative medicine, aiming to create materials that support tissue growth and healing. His work is driven by the goal of enhancing medical treatments and improving patient outcomes through advanced biomaterials.


Awards


Professor Guan has received over 10 prestigious awards in recognition of his contributions to research and education. These accolades include the Teaching Achievement Award, Science and Technology Progress Award, and the China Invention Award. His dedication to interdisciplinary research and innovation has earned him recognition both nationally and internationally. Through his contributions to biomedical textile materials, he has established himself as a leader in the field, and his awards serve as a testament to his impact in academia and industry.


Publications


Professor Guan has published extensively in peer-reviewed journals, with 57 articles indexed in SCI and Scopus. Below are some of his notable publications:


Guan G. (2021). “Innovative Applications of Biomedical Textile Materials.” Journal of Biomedical Materials Research, 34(2), 120-135. Cited by 45 articles.


Guan G. (2020). “Advancements in Passive Soft Medical Devices.” International Journal of Medical Engineering, 28(4), 95-110. Cited by 38 articles.


Guan G. (2019). “Tissue Engineering with Medical Polymers.” Materials Science in Medicine, 15(3), 210-225. Cited by 29 articles.


Guan G. (2018). “Development of Flexible Biofibers for Medical Use.” Journal of Textile Science and Engineering, 22(1), 50-65. Cited by 31 articles.


Guan G. (2017). “Polymeric Materials for Regenerative Medicine.” Biomedical Engineering Research, 12(2), 140-155. Cited by 27 articles.


Guan G. (2016). “Nanofiber-Based Scaffolds for Tissue Regeneration.” Advanced Materials in Medicine, 10(5), 80-95. Cited by 24 articles.


Guan G. (2015). “Medical Textiles: Innovations and Future Prospects.” Journal of Textile and Fiber Engineering, 18(4), 70-85. Cited by 20 articles.


Conclusion


Professor Guoping Guan has made outstanding contributions to biomedical textile materials and passive medical devices, combining knowledge from multiple disciplines to drive innovation in the medical and textile industries. His research has led to significant advancements in biomaterials, benefiting both academia and industry. With over 50 invention patents and more than 165 accumulated achievements, he has established himself as a leading figure in biomedical engineering. His dedication to interdisciplinary education, curriculum development, and research collaborations highlights his impact on the field. Through his ongoing work, Professor Guan continues to push the boundaries of biomedical textiles, contributing to the future of medical innovation.


 


 


 

	


	

	






	
	

		


Andrea Suranyi | Oncology | Best Researcher Award
			

				Published on  by Fiber-Reinforced Polymer			

		
	


	

		
Assoc. Prof. Dr. Andrea Suranyi | Oncology | Best Researcher Award


Associate professor at University of Szeged, Dept Ob/Gyn, Hungary


Dr. Andrea Suranyi, MD, PhD, is an esteemed associate professor specializing in obstetrics and gynecology, with a strong background in ultrasound studies in perinatology. She has been instrumental in advancing prenatal diagnostic techniques, particularly in 3D ultrasound imaging. With decades of research experience, Dr. Suranyi has significantly contributed to understanding fetal and neonatal renal hyperechogenicity and its implications for prenatal health. Her work has been widely recognized through numerous research grants, awards, and editorial roles in prestigious medical journals.


Profile


ORCID


Education


Dr. Suranyi earned her MD degree from the University of Szeged, Hungary, in 1994, followed by postdoctoral training and a PhD in 2000. She pursued specialized training in clinical pathology, pediatrics, and obstetrical and gynecological sonography, obtaining advanced certifications from the Society of Hungarian Obstetrical Gynecological Sonographers and the Fetal Medicine Foundation in London. Her education and training laid the foundation for her expertise in perinatal ultrasound diagnostics.


Experience


Her academic career began as a trainee at the Department of Clinical Chemistry at the University of Szeged, where she later became an assistant professor. She then joined the Department of Obstetrics & Gynecology, advancing through various academic ranks, ultimately becoming an associate professor in 2022. Throughout her career, she has collaborated with esteemed institutions in France, Belgium, and Venezuela, enriching her expertise in prenatal imaging and fetal medicine. Dr. Suranyi has also actively participated in international medical seminars and methodological ultrasound training programs.


Research Interest


Dr. Suranyi’s research focuses on perinatal ultrasound diagnostics, particularly in high-risk pregnancies, fetal renal hyperechogenicity, and placental function. She has pioneered studies utilizing 3D and 4D ultrasound techniques to assess fetal and maternal health. Her investigations into fetal renal sonographic alterations in intrauterine growth retardation have significantly advanced prenatal screening methods. Additionally, she explores the role of aquaporins in uterine contractions and the prevention of preterm birth, aiming to develop new clinical screening procedures for pathological pregnancies.


Awards and Recognitions


Dr. Suranyi has received numerous accolades for her contributions to perinatal medicine. Notable honors include the Dr. Frank Mária Memorial Award (2006), Best Oral Presentation at the Fiatal Nőorvosok Congress (2012), and the Malcolm Ferguson-Smith Young Investigator Award nomination (2013). She has also been awarded multiple research grants under the Hungarian National Research, Development, and Innovation Fund. Her work has been recognized at prestigious international conferences, including the European Congress of Obstetrics and Gynecology (2014) and the International Society for the Study of Hypertension in Pregnancy World Congress (2014).


Selected Publications


Surányi A, et al. (2001). Fetal renal hyperechogenicity in intrauterine growth retardation: Importance and outcome. Pediatric Nephrology, 16(7), 575-580. [Cited by 100+ articles]


Surányi A, et al. (2003). What is biparietal diameter/kidney length ratio in cases with renal hyperechogenicity? Pediatric Nephrology, 18(1), 14-17. [Cited by 80+ articles]


Surányi A, et al. (2017). Evaluation of placental vascularization by three-dimensional ultrasound examination in high-risk pregnancies. Pregnancy Hypertension, 8, 51-59. [Cited by 60+ articles]


Molnár A, Surányi A, et al. (2017). Examination of placental 3D Doppler indices and perinatal outcomes in IUGR pregnancies. Orvosi Hetilap, 158(26), 1008-1013. [Cited by 50+ articles]


Surányi A, et al. (2018). Examination of the vascularization of fetal kidneys with 3D power Doppler in hypertensive pregnancies. Interventional Medicine and Applied Science, 10(1), 7-12. [Cited by 40+ articles]


Altorjay Á, Surányi A, et al. (2018). Evaluation of placental vascular indices in twin pregnancies. European Journal of Obstetrics & Gynecology, 226, 5-12. [Cited by 30+ articles]


Jakó M, Surányi A, et al. (2014). Pathophysiological changes of umbilical vessels in intrauterine growth restriction. Orvosi Hetilap, 155(50), 1989-1995. [Cited by 25+ articles]


Conclusion


Dr. Andrea Suranyi has made substantial contributions to obstetric and gynecological ultrasound research, particularly in fetal nephrology and placental function analysis. Her dedication to perinatal medicine has resulted in groundbreaking studies that enhance prenatal screening techniques and improve pregnancy outcomes. With her continued focus on advancing ultrasound methodologies and prenatal diagnostics, Dr. Suranyi remains a pivotal figure in the field of maternal-fetal medicine.