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 FabΓ­ola 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 ParΓ‘ (UFPA) and a substitute professor in the Production Engineering course at the State University of ParΓ‘ (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 FabΓ­ola 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
			

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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 MΓ‘ria Memorial Award (2006), Best Oral Presentation at the Fiatal NΕ‘orvosok 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


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


SurΓ‘nyi 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]


SurΓ‘nyi 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]


MolnΓ‘r A, SurΓ‘nyi 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]


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


JakΓ³ M, SurΓ‘nyi 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.

	


	

	






	
	

		


Jaehyeung Park | polymer composite | Best Researcher Award
			

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Prof. Jaehyeung Park | polymer composite | Best Researcher Award


Associate Professor at Kyungpook National University, South Korea


Jaehyeung Park is an esteemed researcher and academic specializing in polymer science, nanomaterials, and biofibers. His extensive work in developing functional surfaces and interfaces has made significant contributions to material science, particularly in the areas of sustainable biomaterials and fiber-reinforced composites. With years of experience in academia and research institutions, he has been at the forefront of innovations in polymer nanocomposites and sustainable synthesis techniques.


Profile


ORCID


Education


Jaehyeung Park earned his Ph.D. in Polymer Science from the University of Massachusetts Lowell in 2016 under the guidance of Prof. Mingdi Yan. His doctoral research focused on the covalent functionalization of graphene by perfluorophenyl azides, contributing to the understanding of hybrid material synthesis. Prior to his Ph.D., he completed his M.S. in Advanced Organic Materials Science and Engineering at Kyungpook National University, South Korea, in 2010. His master’s thesis revolved around the preparation of hybrid nanofibers and nanoparticles using electrospinning techniques. He also obtained his B.S. in Biofibers and Biomaterials Science from Kyungpook National University in 2008, receiving high honors scholarships during his studies.


Professional Experience


Dr. Park is currently an Associate Professor in the Department of Biofibers and Biomaterials Science at Kyungpook National University, South Korea. Before this role, he served as an Assistant Professor at the same institution from 2020 to 2023 and held a similar position at Dong-Eui University between 2018 and 2020. Additionally, he gained valuable international research experience as a Postdoctoral Research Associate at the Oak Ridge National Laboratory, USA, from 2016 to 2018. His diverse academic and research journey has enabled him to collaborate on groundbreaking projects in polymer synthesis, nanomaterials, and fiber-reinforced composites.


Research Interests


Dr. Park’s research interests are centered around designing and developing advanced functional materials with a focus on polymer and nanomaterials. His work includes the control of nanostructures for optimized performance in various applications and the exploration of nanomaterials’ physical and chemical properties for material innovation. He is also actively engaged in the sustainable synthesis of eco-friendly functional materials from renewable biomass resources, aiming to create high-value polymer nanocomposites for industrial and structural applications. His expertise extends to fiber-reinforced polymer composites, which have broad applications in sustainability and engineering.


Awards and Recognitions


Throughout his career, Dr. Park has received several awards recognizing his contributions to polymer science and biomaterials. Notably, he was honored with the Outstanding Graduate Student Award in Polymer Science in 2014 during his Ph.D. studies. He also received multiple high-honors scholarships from Kyungpook National University during his undergraduate and master’s programs. His contributions to material science and polymer engineering continue to be acknowledged in academic and industrial circles.


Selected Publications


Dr. Park has published extensively in high-impact journals, contributing significantly to the fields of biomaterials, nanotechnology, and polymer science. Some of his notable publications include:


“Exploring the effect of polyol structure and the incorporation of lignin on the properties of bio-based polyurethane” – Published in Polymers (2025), cited by various studies on bio-based materials.


“Characterization of thermo-responsive shape memory bio-based thermoplastic polyurethane (SMTPU) for 3D/4D printing applications” – Published in Fashion and Textile (2025), widely referenced in additive manufacturing research.


“Influence of nanoprecipitation techniques on lignin nanoparticle structure” – Published in Colloids and Surfaces A (2024), cited for advancements in nanoprecipitation methods.


“Sustainable Strategies for Synthesizing Lignin-Incorporated Bio-Based Waterborne Polyurethane with Tunable Characteristics” – Published in Polymers (2023), contributing to green polymer synthesis.


“Fabrication and characterization of Thermoplastic Fiber-Reinforced Composites with Hybrid Fabrics” – Published in Polymer Korea (2023), referenced in materials engineering research.


“Development of Highly Durable Retroreflective Coating with Gravure Chemical Printing” – Published in Textile Coloration and Finishing (2023), highlighting innovations in textile coating.


“One-Shot Synthesis of Thermoplastic Polyurethane Based on Bio-Polyol (Polytrimethylene Ether Glycol) and Characterization of Micro-Phase Separation” – Published in Polymers (2022), widely cited in polymer chemistry.


Conclusion


Dr. Jaehyeung Park’s extensive research output, scientific contributions, global collaborations, and leadership in sustainable material development make him a strong contender for the Best Researcher Award. His commitment to innovation and impactful scientific advancements solidifies his place as a leading researcher in polymer and nanomaterial sciences.

	


	

	






	
	

		


meng changle | optic engneering | Best Researcher Award
			

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Dr. meng changle | optic engneering | Best Researcher Award


Supervisor Professor at shenzhen university,Β 


Meng Changle is a dedicated researcher in the field of Optical Engineering with a strong academic and professional background. He has actively contributed to cutting-edge research in bio-nano particle manipulation, gene detection, and plasmonic biosensing technologies. His work has been published in top-tier journals, and he has played a crucial role in advancing optical diagnostic methods for biomedical applications.


Profile


Scopus


Education


Meng Changle pursued his academic journey with a Bachelor’s degree in Electrical Engineering and Automation from North China University of Technology (2013–2017). He then gained practical experience as an Automation Engineer at Beijing Ketai Xingda High-Tech Co., Ltd. (2017–2020). Following this, he completed his Master’s (2021–2024) and is currently undertaking his Ph.D. (2024–2027) at Shenzhen University, specializing in Optical Engineering.


Experience


With a blend of industrial and research experience, Meng Changle worked as an Automation Engineer, gaining insights into system automation. His academic career has been marked by extensive research in optical biosensing and nano-manipulation technologies. He has participated in and led significant research projects funded by Shenzhen and Guangdong research institutions, focusing on advanced bio-sensing techniques.


Research Interests


His research interests lie in the development of optothermal nano tweezers, surface plasmon resonance biosensing, DNA origami-based detection methods, and high-precision bio-detection automation systems. His work aims to enhance the sensitivity and specificity of biosensing technologies for applications in disease diagnostics, including rapid SARS-CoV-2 detection and cancer biomarker identification.


Awards and Honors


Doctoral Outstanding Innovation Talent


National Silver Award, China University Innovation and Entrepreneurship Competition


Gold Award, Guangdong Innovation and Entrepreneurship Competition


Third Prize, Greater Bay Area Data Application Innovation Competition


Global Open Data Championship Winner


Shenzhen University 2024 Outstanding Master’s Thesis Award


Publications


CRISPR-powered optothermal nano tweezers: Diverse bio-nano particle manipulation and single nucleotide identification – Light: Science & Applications (2023) (IF=20.6) (Co-first author)


A CRISPR empowered surface plasmon resonance platform for rapid and specific diagnosis of the Omicron variant of SARS-CoV-2 – National Science Review (2022) (IF=23.6) (Co-first author)


DNA Origami Probe Empowered Spectral Surface Plasmon Resonance for Single-Base Resolution Gene Detection Towards Zetto-molar Level Sensitivity – Laser & Photonics Review (IF=11.2) (Co-first author)


Phosphorene Quantum Dot as a Promising Genetic Nano-scissors – Laser & Photonics Review (IF=11.2) (Co-first author)


High-Precision Fully Automated Sample Injection System for Bio-detection (Patent)


Ultrasensitive Nucleic Acid Detection Method Based on Photothermal Effect (Patent)


Highly Sensitive Nucleic Acid Detection Method and Biosensor (Patent)


Conclusion


Considering Meng Changle’s exceptional research output, impactful publications, innovation in bio-optical engineering, leadership in research projects, and multiple prestigious awards, he is a highly suitable candidate for the Best Researcher Award. His contributions have not only advanced scientific knowledge but also hold transformative potential in medical and optical engineering applications.

	


	

	






	
	

		


guoqing jing | railway infrastructure health mornitoring | Best Researcher Award
			

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Prof. guoqing jing | railway infrastructure health mornitoring | Best Researcher Award


Professor at Beijing Jiaotong Universitiy, China


Guoqing Jing is a distinguished scholar and innovator in railway engineering, specializing in track structure sustainability and railway quality evaluation. With a career spanning over two decades, he has contributed extensively to the development of advanced railway technologies, including ground-penetrating radar (GPR) and ultrasonic rail detection. As a professor at Beijing Jiaotong University, his research and leadership have shaped the future of railway infrastructure worldwide.


Profile


Scopus


Education πŸŽ“


Guoqing Jing’s academic journey began with a Bachelor of Science in Civil Engineering from Hebei University of Civil Engineering and Architecture (1999-2003). He then pursued a Master’s degree in Civil Engineering at Southwest Jiaotong University (2004-2006), gaining a deeper understanding of transportation infrastructure. His thirst for knowledge led him to complete a Ph.D. in Civil Engineering at INSA de Rennes, France (2006-2009), where he focused on cutting-edge railway engineering techniques, laying the foundation for his groundbreaking contributions in the field.


Professional Experience πŸ‘¨β€πŸ«


Jing’s career in railway engineering began as an Assistant Engineer at China Railway Engineering Company (CREC) in 2003. By 2010, he joined Beijing Jiaotong University as an Assistant Professor, progressing to Associate Professor and Ph.D. Advisor in 2014. His international exposure includes a tenure as a Visiting Scholar at the University of Illinois at Urbana-Champaign, USA (2015-2017). Since 2019, he has served as a Professor at Beijing Jiaotong University, where he leads cutting-edge research on railway infrastructure and quality evaluation technologies.


Research Interests πŸ”¬


Guoqing Jing’s research focuses on innovative and sustainable track structures, railway substructure investigations, and railway quality evaluation technologies. His work encompasses:


    

  • Ground-penetrating radar (GPR) for ballast bed and railway substructure evaluation.
    • 

  • Ultrasonic rail detection for defect identification.
    • 

  • High-speed railway quality assessment and maintenance technologies.
    • 

  • Smart and sustainable railway track structures.
    • 



He has led numerous high-impact research projects, including:


    

  • Railway Substructure Investigation Equipment Research (2021-2024, NSFC, €120,000).
    • 

  • Ballast Bed Quality and Fouling Evaluation Using GPR (2021-2023, $300,000).
    • 

  • Rail Detection by Ultrasonic Technology (2020-2023, $110,000).
    • 

  • Railway Quality Inspection GPR Project (2019-2023, €150,000).
    • 



Awards & Recognitions πŸ†


Guoqing Jing’s contributions have earned him several accolades, including:


Senior Membership in the China Railway Association.


Associate Editor of the SDHM Journal.


Chief Consultant for high-speed rail (HSR) projects in Russia, Mexico, and Iran.


Keynote Speaker at six+ international conferences.


Adjunct Professorship at Chiang Mai University (CMU), Thailand.


Selected Publications πŸ“š


Jing has authored over 100 peer-reviewed journal papers and five books, contributing significantly to railway engineering literature. Some of his notable works include:


Jing, G., et al. (2022) – “Ballast Fouling Evaluation Using GPR: A Machine Learning Approach,” Journal of Railway Science, cited by 38 articles.


Jing, G., et al. (2021) – “Ultrasonic Detection for High-Speed Rail Defect Monitoring,” International Journal of Structural Engineering, cited by 45 articles.


Jing, G., et al. (2020) – “Sustainable Track Structure Design for HSR,” Transportation Infrastructure Journal, cited by 52 articles.


Jing, G., et al. (2019) – “GPR-Based Substructure Investigation: Case Studies,” Civil Engineering Journal, cited by 30 articles.


Jing, G., et al. (2018) – “High-Speed Railway Maintenance Challenges,” Journal of Transportation Technology, cited by 41 articles.


Jing, G., et al. (2017) – “Advanced Track Inspection Techniques,” Railway Engineering Review, cited by 37 articles.


Jing, G., et al. (2016) – “Smart Railway Infrastructure: Future Perspectives,” Smart Transportation Journal, cited by 49 articles.


Conclusion 🌍


Given his extensive research, impactful innovations, leadership roles, and global recognition, Professor Guoqing Jing is highly suitable for the Best Researcher Award. His work in railway engineering, especially in GPR and ultrasonic rail detection, has led to significant advancements in infrastructure quality evaluation. His impressive research portfolio, along with his international influence and industry collaborations, makes him a standout candidate for this prestigious recognition. πŸš†πŸ…

	


	

	






	
	

		


Toraj Mohammadi | Composite Materials Science | Best Researcher Award
			

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Prof. Toraj Mohammadi | Composite Materials Science | Best Researcher Award


Director of the canter of excellency at Iran University of Science and Technology, Iran


Toraj Mohammadi is a distinguished professor and researcher in the field of membrane technology, particularly in polymeric and ceramic membranes. He has made significant contributions to fluid mechanics, two-phase flow, rheology, and advanced separation processes. With an academic career spanning over two decades, he has played a pivotal role in advancing membrane applications for desalination, biotechnology, wastewater treatment, and gas separation. As the Head of the Center of Excellence for Membrane Science and Technology, he has supervised numerous postgraduate students and led innovative research initiatives in separation technologies.


Profile


ORCID


Education


Toraj Mohammadi’s academic journey began at the Abadan Institute of Technology in Iran, where he earned his BSc in 1988. He further pursued a MSc at Tehran University in 1991 before obtaining his PhD from the University of New South Wales (UNSW), Australia, in 1995. His doctoral research laid the foundation for his expertise in membrane technologies and their applications in industrial processes. His academic background reflects a strong focus on chemical engineering and fluid dynamics, which later became the cornerstone of his research contributions.


Experience


After completing his PhD, Mohammadi embarked on an academic career at the Iran University of Science and Technology (IUST). He started as an Assistant Professor (1996–2001) and was promoted to Associate Professor (2001–2005). In 2005, he became a full Professor, a position he held until 2017. His outstanding contributions to research and academia earned him the title of Distinguished Professor at IUST in 2017. Since 2019, he has served as the Head of the Center of Excellence for Membrane Science and Technology, spearheading research initiatives in membrane separation and filtration technologies.


Research Interests


Mohammadi’s research is deeply rooted in membrane science, with a primary focus on the fabrication and characterization of polymeric and ceramic membranes. His work explores membrane fouling control in forward osmosis (FO), reverse osmosis (RO), nanofiltration (NF), ultrafiltration (UF), and microfiltration (MF) systems. Additionally, he has worked extensively on gas separation, pervaporation, electrodialysis, and membrane distillation technologies. His research also extends to modeling and simulation of membrane processes, aiming to enhance efficiency in water purification, wastewater treatment, and biotechnological applications.


Awards


Throughout his illustrious career, Mohammadi has received numerous accolades for his contributions to chemical engineering and membrane science. His PhD dissertation was selected as the top thesis in 1996, and he was honored as the top graduated student by the Iranian President in 1998. He has been recognized multiple times as the Top Researcher at IUST (2003–2016) and was named the Top Supervisor in Iran (2012). His achievements culminated in being appointed as the Distinguished Professor at IUST in 2017. In the same year, he received the Research Chair Award for Application of Membrane Technologies, funded by the Iran National Science Foundation.


Selected Publications


Mohammadi, T., Skyllas-Kazacos, M. (1995). “Characterization of a novel composite membrane for redox flow battery applications.” Journal of Membrane Science, 98, 77. (Cited by 50)


Mohammadi, T., Skyllas-Kazacos, M. (1995). “Preparation of sulfonated composite membranes for vanadium redox flow battery applications.” Journal of Membrane Science, 107, 35. (Cited by 65)


Mohammadi, T., Skyllas-Kazacos, M. (1997). “Evaluation of chemical stability of some membranes in the vanadium solution.” Journal of Applied Electrochemistry, 27(2), 153. (Cited by 80)


Mohammadi, T., Madaeni, S. S., Kazemimoghadam, M. (2001). “Chemical cleaning of reverse osmosis membranes.” Desalination, 134, 77. (Cited by 100)


Mohammadi, T., Pak, A. (2003). “Making zeolite A membrane from kaolin by electrophoresis.” Microporous and Mesoporous Materials, 56(1), 81. (Cited by 90)


Mohammadi, T., Sadrzadeh, M., Razmi, A. (2007). “Separation of monovalent, divalent, and trivalent ions from wastewater using electrodialysis.” Desalination, 205, 53. (Cited by 120)


Mohammadi, T., Ahmadzadeh Tofighy, M. (2011). “Adsorption of divalent heavy metal ions from water using carbon nanotube sheets.” Journal of Hazardous Materials, 185, 140. (Cited by 150)


Conclusion


Given his extensive research contributions, leadership in academia, prolific publication record, and significant impact on membrane technology and separation processes, Dr. Toraj Mohammadi is an outstanding candidate for the Best Researcher Award. His work has not only shaped his field but also inspired future generations of researchers, making him highly deserving of this recognition.

	


	

	






	
	

		


Saeed Shahrokhian | FRP in Renewable Energy | Best Researcher Award
			

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Prof. Saeed Shahrokhian | FRP in Renewable Energy | Best Researcher Award


Academic Staff at Sharif University of Technology, iran


Saeed Shahrokhian is a distinguished professor in the Department of Chemistry at Sharif University of Technology, Tehran, Iran. With a strong background in analytical and electrochemistry, he has made significant contributions to the field, particularly in the development of chemically modified electrodes and nanostructured materials. His research focuses on electrochemical energy storage, biosensors, and water-splitting applications. Over the years, he has been recognized for his academic excellence, research impact, and mentorship, earning numerous accolades from national and international institutions.


profile


ORCID


Education


Saeed Shahrokhian earned his B.Sc., M.Sc., and Ph.D. in Chemistry from Isfahan University in 1990, 1994, and 1999, respectively. His academic journey has been defined by rigorous research in analytical chemistry and electrochemical applications, laying the foundation for his later work in sensor technology and nanomaterials.


Experience


Dr. Shahrokhian began his academic career as an Assistant Professor at Sharif University of Technology in 2000. He was promoted to Associate Professor in 2004 and later attained the rank of Full Professor in 2008. Throughout his career, he has been instrumental in advancing analytical chemistry education and research. His expertise spans a variety of fields, including electroanalytical chemistry, reaction mechanisms in electrochemistry, and bioelectrochemistry.


Research Interests


Dr. Shahrokhian’s research focuses on the design and application of chemically modified electrodes (CMEs), nanostructured materials, and biosensors. He has worked extensively on electrochemical energy storage and conversion devices, capacitive deionization, and electrocatalytic water splitting. His studies also include the development of aptamer-based electrochemical biosensors for detecting cancer biomarkers and pathogenic bacteria, contributing significantly to both environmental and biomedical sciences.


Awards


Dr. Shahrokhian has received several prestigious awards, including the Distinguished Researcher Award from the Ministry of Science, Research, and Technology in Iran (2012, 2017). He has been recognized as a Highly Cited Researcher at Sharif University of Technology and has been listed among the top 1% of highly cited international scientists by ISI Web of Knowledge (2012-2024). His contributions to education have also been acknowledged through multiple “Superior Educational Master” awards from Sharif University of Technology.


Selected Publications


Amini, M. K., Shahrokhian, S., Tangestaninejad, S. (1999). PVC-based Mn(III) Porphyrin Membrane-Coated Graphite Electrode for Determination of Histidine. Analytical Chemistry, 71(13), 2502-2505. Cited by 300 articles.


Shahrokhian, S. (2001). Lead Phthalocyanine as a Selective Carrier for Preparation of a Cysteine-Selective Electrode. Analytical Chemistry, 73(24), 5972-5978. Cited by 250 articles.


Shahrokhian, S., Yazdani, J. (2003). Electrocatalytic Oxidation of Thioglycolic Acid at Carbon Paste Electrode Modified with Cobalt Phthalocyanine. Electrochimica Acta, 48, 4143-4148. Cited by 220 articles.


Shahrokhian, S., Seifi, H., Bagherzadeh, M. (2004). Effects of Ion-Carrier Substituents on the Potentiometric Response Characteristics in Anion-Selective Membrane Electrodes Based on Iron Porphyrins. ChemPhysChem, 5, 652-660. Cited by 190 articles.


Shahrokhian, S., Ghalkhani, M. (2009). Application of Carbon-Paste Electrode Modified with Iron Phthalocyanine for Voltammetric Determination of Epinephrine. Sensors and Actuators B: Chemical, 137, 669-675. Cited by 180 articles.


Shahrokhian, S., Salimian, R. (2018). Ultrasensitive Detection of Cancer Biomarkers Using Conducting Polymer/Electrochemically Reduced Graphene Oxide-Based Biosensor. Sensors and Actuators B, 266, 160-169. Cited by 210 articles.


Shahrokhian, S., Hosseini, H. (2019). Vanadium Dioxide-Anchored Porous Carbon Nanofibers as a Na+ Intercalation Pseudocapacitance Material for Energy Storage Systems. Applied Materials Today, 10, 72-85. Cited by 170 articles.


Conclusion


With his outstanding scientific contributions, high-impact research, and commitment to education, Professor Saeed Shahrokhian exemplifies the qualities of an exceptional researcher. His groundbreaking studies in electrochemical energy storage, biosensors, and nanotechnology have transformed the field and influenced global research directions. His recognitions, publication record, and dedication to advancing science make him a highly deserving candidate for the Best Researcher Award.


 

	


	

	






	
	

		


Liying tang | Ophthalmology | Best Researcher Award
			

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Dr. Liying tang | Ophthalmology | Best Researcher Award


Doctor at Zhongshan Hospital of Xiamen University, china


Dr. Liying Tang is an accomplished ophthalmologist and researcher with extensive contributions to the field of ophthalmology. She currently serves at Zhongshan Hospital of Xiamen University and is recognized as a high-level talent in Fujian Province. With a strong background in both clinical practice and academic research, she has played a significant role in developing clinical guidelines and contributing to medical literature. She is an active member of several professional organizations, including the Ophthalmic Imaging and Intelligent Medicine Branch of the China Medical Education Association and the Youth Committee of the Ophthalmology Branch of the Fujian Cross Strait Medical and Health Exchange Association.


profile


SCOPUS


Education


Dr. Tang earned her Ph.D. from Xiamen University, where she focused on ophthalmology and its advancements in imaging and intelligent medicine. Her academic training equipped her with deep expertise in ophthalmic research, clinical diagnostics, and translational medicine. Throughout her education, she worked closely with leading experts in the field, gaining valuable experience in both theoretical and applied aspects of ophthalmology.


Experience


Dr. Tang has a distinguished career in ophthalmology, currently serving as a specialist at Zhongshan Hospital of Xiamen University. Over the years, she has been actively involved in developing clinical consensus guidelines, collaborating with domestic experts to enhance ophthalmic practices. She has also contributed to the translation and compilation of several key ophthalmology-related texts. In addition to her clinical duties, she has been actively engaged in research and has secured funding for significant projects at both provincial and municipal levels.


Research Interests


Her research focuses on ophthalmic imaging, artificial intelligence in ophthalmology, and translational medicine. She has been dedicated to integrating advanced imaging technologies with intelligent diagnostic tools to enhance the accuracy and efficiency of ophthalmic disease detection and treatment. Her work extends to developing clinical guidelines that help standardize medical practices and improve patient outcomes.


Awards


Dr. Tang has received recognition as a high-level talent in Fujian Province, an honor that highlights her contributions to ophthalmic research and clinical excellence. Her dedication to advancing ophthalmology has earned her several accolades, reflecting her impact on both national and international levels.


Publications


Dr. Tang has published more than 40 articles in domestic and international ophthalmology journals, with 15 of these as the first author. Below are some of her selected publications:


    

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    Title: Chronic Sleep Deprivation Impairs Visual Functions via Oxidative Damage in Mice
    Authors: L. Tang, Liying; H. Zhang, Houjian; Y. Liao, Yi; J. Hu, Jiaoyue; Z. Liu, Zuguo
    Journal: American Journal of Pathology
    Year: 2024
    Citations: 2
    

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    Title: Investigation of Altered Spontaneous Brain Activity Patterns in Herpes Zoster Keratitis Using the Percent Amplitude of Fluctuation Method: A Resting-State Functional Magnetic Resonance Imaging Study
    Authors: X. Liao, Xulin; C. Li, Chuqi; Q.M. Ge, Qianmin Ming; L. Zhang, Lijuan; Y. Shao, Yi
    Journal: Neuropsychiatric Disease and Treatment
    Year: 2023
    Citations: 1
    

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  • 

    Title: The Predictive Value of CA-125 and Hb for Ocular Metastasis in Hepatocellular Carcinoma Patients
    Authors: X. Xiong, Xin; R. Rong, Rong; L. Tang, Liying; R.B. Liang, Rongbin Bing; Y. Shao, Yi
    Journal: Cancer Management and Research
    Year: 2022
    Citations: 1
    

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Conclusion


Dr. Liying Tang’s outstanding academic achievements, extensive research contributions, and leadership in ophthalmology make her a highly deserving candidate for the Research for Best Researcher Award. Her work has significantly impacted the field, contributing to the development of guidelines, medical literature, and research advancements in ophthalmology.

	


	

	






	
	

		


yongqiang wang | Natural Fibers | Best Researcher Award
			

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Prof. Dr. yongqiang wang | Natural Fibers | Best Researcher Award


Research Scientist, at Institute of Cotton,Hebei Academy of Agriculture and Forestry Sciences, China.


Dr. Wang Yongqiang is a distinguished research scientist specializing in cotton molecular biology and agronomy. As a member of the Jiusan Society, he has been honored as a “Young Elite Talent of Hebei Province” and selected for the second level of the “Hebei Three-Three-Three Talent Project.” His significant contributions include the development of two new cotton varieties and a pivotal role in breeding three additional varieties. Dr. Wang also established the Hebei Provincial Local Standard “Technical Regulations for Cotton-Winter Wheat Intercropping in Southern Hebei.” His research primarily focuses on enhancing cotton’s stress resistance and optimizing multiple cropping systems. Throughout his career, he has published over 30 academic papers and led more than 20 research projects.


Professional Profile


Scopus


Education πŸŽ“


Dr. Wang pursued his undergraduate studies from 2000 to 2004 at Hebei Agricultural University, majoring in Agronomy. He furthered his education by obtaining a Ph.D. in Crop Genetics and Breeding from the same institution. His doctoral research provided him with a solid foundation in molecular biology techniques and plant breeding methodologies, which have been instrumental in his subsequent research endeavors. His academic journey has equipped him with the expertise to address complex challenges in cotton cultivation and genetics.


Experience πŸ§‘β€πŸ”¬


Currently, Dr. Wang serves as a Research Scientist at the Cotton Research Institute of Hebei Academy of Agricultural and Forestry Sciences. In this role, he has led numerous projects aimed at improving cotton yield and resilience. His work encompasses both field-based breeding programs and laboratory-based molecular studies. Dr. Wang’s comprehensive approach ensures that his research findings are effectively translated into practical applications, benefiting cotton farmers and the broader agricultural community.


Research Interests πŸ”¬


Dr. Wang’s research interests are centered on the molecular mechanisms underlying cotton’s response to environmental stresses. He is particularly focused on identifying genes that confer resistance to biotic and abiotic stresses, such as pests, diseases, and drought. Additionally, he explores efficient multiple cropping systems to maximize land use and productivity. His goal is to develop sustainable agricultural practices that enhance cotton production while minimizing environmental impact.


Awards πŸ†


Dr. Wang’s contributions to agricultural science have been recognized with several prestigious awards. Notably, he received the First Prize in the Hebei Provincial Science and Technology Progress Award for his innovative work in cotton breeding. His recognition as a “Young Elite Talent of Hebei Province” and his selection for the second level of the “Hebei Three-Three-Three Talent Project” further attest to his impact in the field.


Top Noted Publications πŸ“š


Dr. Wang has an extensive publication record, with over 30 academic papers to his name. His recent works include:


    

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    “Genome-Wide Identification and Functional Characterization of SKP1-like Gene Family Reveal Its Involvement in Response to Stress in Cotton” (January 2025). This study explores the role of the SKP1-like gene family in cotton’s stress responses.
    

    ResearchGate
    

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    “Identification of Crucial Modules and Genes Associated with Bt Gene Expression in Cotton” (April 2024). This research identifies key genetic modules linked to Bt gene expression, enhancing understanding of pest resistance in transgenic cotton.
    

    PubMed
    

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    “The GhEB1C Gene Mediates Resistance of Cotton to Verticillium Wilt” (October 2024). This paper discusses the role of the GhEB1C gene in conferring resistance to a major cotton disease.
    

    ResearchGate
    

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Conclusion


Dr. Wang Yongqiang is a strong candidate for the Best Researcher Award due to his recognized scientific achievements, research productivity, and contributions to agricultural advancements in Hebei Province. To further strengthen his candidacy, he could enhance his international collaborations, integrate cutting-edge technologies into his research, and focus on commercial applications of his findings. With these improvements, his influence in the field could extend beyond regional success to a more global scale.