Naima Benmakhlouf | Fluide et biophysique | Best Researcher Award

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Dr. Naima Benmakhlouf| Fluide et biophysique| Best Researcher Award

Maitre Assistant à université AlBaha , Tunisia.

Dr. Naima Mohamed Benmakhlouf is a Tunisian physicist with deep expertise in fluid mechanics and heat transfer. She earned her Ph.D. in Physics from the University of Tunis El Manar, where she studied the hydro-thermo-mechanical behavior of porous materials during drying processes. Fluent in Arabic, French, and English, she has held teaching roles in Tunisia and Saudi Arabia, most recently as an Assistant Professor at Al-Baha University. Known for her academic rigor and administrative leadership, she has supervised physics departments, contributed to quality committees, and engaged in collaborative international research. Dr. Benmakhlouf’s dedication to science, education, and applied research make her a valuable asset in both academia and global scientific communities.

Professional Profile​

Education

Dr. Benmakhlouf holds a Ph.D. in Physics (2016) from the Faculty of Science of Tunis, University of Tunis El Manar, with a specialization in fluid mechanics and heat transfer. Her doctoral research explored the drying dynamics of porous materials like leather using experimental and numerical modeling. She also earned a Master’s degree (2012) in the Physics of Fluids and Transfers and a Bachelor’s in Physical and Chemical Sciences (2009) from the same university. Her academic background is further enriched with diplomas in materials science and experimental sciences. She has participated in advanced research internships in France and Spain, gaining valuable international research experience, especially in thermal and water characterization of innovative materials.

Professional Experience

Dr. Benmakhlouf has held academic positions since 2009, starting with tutorial courses in physics at various Tunisian institutions. Between 2013 and 2016, she taught at Bouebdelli University before transitioning to Al-Baha University in Saudi Arabia as an Assistant Professor (2017–2020). There, she supervised the Girls’ Physics Department and contributed to quality and learning resources committees. She has also served as a reviewer for journals such as Food and Bioproducts Processing. Beyond teaching, she participated in several training programs and collaborative research initiatives, notably in France and Spain, focusing on innovative composite materials and convective drying processes. Her multidisciplinary skills span teaching, scientific research, administrative duties, and collaborative project management.

Research Interests

Dr. Naima Benmakhlouf’s research centers on the hydro-thermo-mechanical behavior of porous materials, particularly during drying processes. She integrates experimental techniques and numerical simulations to analyze heat and mass transfer, contributing to advancements in sustainable materials processing and thermal system modeling. Her recent work includes photovoltaic pumping systems, microwave drying of food materials, and viscoelastic modeling of leather. She collaborates internationally on the characterization of composite materials and smart energy solutions. Her interdisciplinary expertise connects physics, material science, environmental sustainability, and process intensification—bridging theoretical understanding and real-world applications. Through her research, Dr. Benmakhlouf contributes to energy efficiency, eco-friendly drying technologies, and the scientific community’s knowledge of fluid-structure interactions.

Awards and Honors

While specific named awards are not listed, Dr. Benmakhlouf has consistently achieved academic recognition, including a “very honorable” distinction for her Ph.D. and “very good” for her Master’s degree. She has been invited for international internships, such as at the University of Picardie Jules Verne in France and the Universidad Politécnica de Cartagena in Spain—opportunities typically reserved for outstanding researchers. Additionally, her role as a journal reviewer and department head at Al-Baha University signifies peer recognition and leadership trust. Her research publications in top-tier journals like Comptes Rendus Mécanique and Arabian Journal of Chemistry underline her scholarly impact and the quality of her scientific contributions.

Conclusion

Dr. Naima Benmakhlouf is a strong candidate for a mid-career research excellence award, particularly in applied physics or interdisciplinary engineering. Her work bridges fundamental physics with real-world applications (leather drying, renewable systems), and she is making steady contributions across research, teaching, and academic service.

However, for highly competitive “Best Researcher Awards” at national or international levels, it is recommended that she:

  • Increases publication frequency in Q1 journals

  • Seeks research grants or consortium roles

  • Supervises postgraduate research students

  • Expands collaborations and international visibility

➡️ Recommendation: Suitable for institutional or regional best researcher awards, with potential to reach national/international levels with continued research development and broader dissemination.

Publications Top Notes

  • Azzouz, S., Hermassi, I., Toujani, M., & Belghith, A. (2016). Effect of drying temperature on the rheological characteristics of dried seedless grapes. Food and Bioproducts Processing, 100, 246–254.
    📑 Citations: 19

  • Benmakhlouf, N., Azzouz, S., Monzó-Cabrera, J., Khdhira, H., & ElCafsi, A. (2017). Controlling mechanisms of moisture diffusion in convective drying of leather. Heat and Mass Transfer, 53, 1237–1245.
    📑 Citations: 18

  • Benmakhlouf, N., Azzouz, S., Khedhira, H., & ElCafsi, A. (2016). Moisture sorption isotherms of leather. Journal of the Society of Leather Technologists and Chemists, 100(2), 77–83.
    📑 Citations: 8

  • Benmakhlouf, N., Azzouz, S., & El Cafsi, A. (2018). Experimental and mathematical investigation of parameters drying of leather by hot air. Heat and Mass Transfer, 54, 3695–3705.
    📑 Citations: 7

  • Benmakhlouf, N., Azzouz, S., & ElCafsi, A. (2020). The determination of isosteric heats of sorption of leather: Experimental and mathematical investigations. Arabian Journal of Chemistry, 13(2), 4286–4293.
    📑 Citations: 5

  • Azzouz, S., Benmakhlouf, N., Toumi, A., Khedhira, H., & ElCafsi, A. (2017). Study of the mechanical characteristics of dried leather. Journal of the Society of Leather Technologists and Chemists, 101(5), 253–259.
    📑 Citations: 5

  • Benmakhlouf, N., Azzouz, S., Hassini, L., & El Cafsi, A. (2021). 2D model simulating the hydro-rheological behavior of leather during convective drying. Comptes Rendus Mécanique, 349(2), 305–322.
    📑 Citations: 1

  • Benmakhlouf, N. (2025). Blood flow dynamics and vascular fluid mechanics. Physics of Fluids, 37(1).
    📑 Citations: N/A (newly published)

Shengtai Bian | Molecular Biology | Best Researcher Award

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Assoc. Prof. Dr. Shengtai Bian | Molecular Biology | Best Researcher Award

Association Professor from BEIJING SPORT UNIVERSITY, China

Dr. Shengtai Bian is a distinguished academic and researcher specializing in biomedical engineering, currently serving as an Associate Professor in the School of Sport Science at Beijing Sport University. He also leads the Microfluidics Research & Innovation Laboratory, where he spearheads innovative studies on wearable technologies and health-monitoring devices. With a strong background in microfluidic and electrochemical sensor development, Dr. Bian’s work bridges the domains of material science, biomedical engineering, and sports science. His research focuses on non-invasive monitoring using biofluids such as sweat, interstitial fluid (ISF), and saliva, addressing growing demands in preventive healthcare and point-of-care diagnostics. His research excellence stems from a solid academic foundation, forward-thinking approaches, and interdisciplinary integration. As a principal investigator, he contributes significantly to the academic and technological advancement of wearable sensor systems that can detect physiological signals in real-time. Dr. Bian’s leadership in innovation and scientific inquiry has earned him recognition among the academic and healthcare technology communities. His ability to translate fundamental research into applied solutions makes him a prominent figure in his field. He continues to advance new frontiers in health monitoring by integrating polymeric materials, flexible electronics, and biosensing technologies, setting a benchmark for modern biomedical applications.

Professional Profile

Education

Dr. Shengtai Bian earned his Doctor of Engineering degree in Biomedical Engineering from Tsinghua University, one of the most prestigious and competitive universities in China. Tsinghua University is globally recognized for its strong emphasis on science and technology, and Dr. Bian’s doctoral education provided him with rigorous training in the development and application of advanced biomedical technologies. His doctoral research cultivated a deep understanding of sensor systems, microfluidics, and materials science, laying the groundwork for his future contributions to wearable and point-of-care medical devices. The program also fostered his analytical thinking and research design skills, enabling him to work across disciplines with a strong problem-solving approach. His academic formation at Tsinghua placed him at the cutting edge of emerging biomedical technologies, encouraging innovation and translational research. In addition to core biomedical engineering competencies, Dr. Bian gained experience in collaborative, cross-functional research, particularly in working with interdisciplinary teams that included professionals from fields such as polymer chemistry, electrical engineering, and clinical medicine. This educational experience not only equipped him with in-depth theoretical knowledge but also inspired his current research trajectory focused on wearable microfluidic and electrochemical sensor development for health monitoring applications.

Professional Experience

Dr. Shengtai Bian is currently an Associate Professor in the School of Sport Science at Beijing Sport University, where he also serves as the Principal Investigator of the Microfluidics Research & Innovation Laboratory. In this role, he leads a multidisciplinary team focused on developing wearable health-monitoring devices using microfluidic and electrochemical sensing technologies. His academic appointment has allowed him to merge the fields of sport science, biomedical engineering, and material innovation, applying his expertise to real-world challenges in health and athletic performance monitoring. Dr. Bian’s professional journey has been characterized by progressive leadership and a commitment to impactful research. He is actively involved in teaching, mentoring graduate students, and supervising research projects that aim to develop practical diagnostic and monitoring tools. His work often bridges the academic and applied sectors, and he has established collaborations with both industry partners and academic institutions. Beyond his responsibilities in academia, Dr. Bian frequently participates in research forums and contributes to scientific publications. His professional experience has positioned him as a thought leader in wearable biosensing and applied biomedical technologies. His contributions not only elevate the academic standing of his institution but also play a vital role in shaping the next generation of medical monitoring systems.

Research Interest

Dr. Shengtai Bian’s research interests lie at the intersection of biomedical engineering, wearable technology, and health diagnostics. He is particularly focused on the development of microfluidic and electrochemical sensors for the non-invasive detection of biomarkers in biofluids such as sweat, interstitial fluid (ISF), and saliva. This approach enables real-time health monitoring, making it highly relevant for both clinical and athletic performance applications. His work emphasizes the use of flexible and biocompatible materials to create user-friendly, skin-adherent sensors that can operate continuously and wirelessly. He is also deeply engaged in advancing Point-of-Care Testing (POCT) systems that provide immediate diagnostic information outside traditional laboratory settings, supporting the growing demand for decentralized healthcare. Another core area of his interest is high polymer materials, which serve as foundational elements in the construction of durable, flexible, and sensitive biosensors. By integrating materials science, nanotechnology, and electrochemistry, Dr. Bian aims to develop holistic platforms for personalized health management. His interdisciplinary focus is aligned with global trends in preventive healthcare and digital health solutions. Ultimately, Dr. Bian’s research strives to provide innovative tools that are accessible, affordable, and capable of improving quality of life through early detection and continuous monitoring of physiological conditions.

Research Skills

Dr. Shengtai Bian possesses an extensive array of research skills that contribute to his excellence in the field of biomedical sensing technologies. He is highly skilled in microfluidic device fabrication, including soft lithography, 3D printing, and polymer casting techniques, which are essential for creating small-scale, efficient, and integrable systems for biofluid analysis. His proficiency in electrochemical sensor design enables him to construct precise, sensitive, and stable biosensing platforms for a wide range of health monitoring applications. Dr. Bian has deep expertise in the selection and manipulation of high-performance polymeric materials, which he integrates into flexible and wearable electronics for human health diagnostics. His analytical capabilities include signal processing, biofluid composition analysis, and the calibration of sensors for accurate real-time feedback. Moreover, Dr. Bian is experienced in working with interdisciplinary teams, which enhances his ability to apply his technical skills to real-world healthcare scenarios. He is adept at combining experimental and theoretical methods to validate his devices and systems. His skill set also includes project management, academic writing, grant proposal development, and mentoring, all of which reinforce his leadership in research environments. Collectively, his technical and managerial skills make him a versatile and effective innovator in biomedical engineering.

Awards and Honors

While specific awards and honors for Dr. Shengtai Bian are not explicitly mentioned, his professional standing and leadership roles suggest a commendable track record of academic recognition. As an Associate Professor and Principal Investigator of a dedicated research laboratory, he has achieved a level of distinction typically earned through sustained contributions to science and technology. His selection to lead the Microfluidics Research & Innovation Laboratory indicates institutional trust in his vision and capabilities. Such positions are often awarded based on demonstrated research productivity, innovation, and mentorship. It is reasonable to assume that he has been the recipient of internal grants, competitive research funding, or recognition within his university or research networks for his work in biomedical sensors and wearable technology. Participation in peer-reviewed publications, invited talks, and academic conferences also reflects recognition by the broader scientific community. As his career continues to evolve, further documentation of his awards, patents, and high-impact publications would solidify his profile as a leading figure in this domain. Regardless, his current role and research leadership are testaments to his academic merit and the impact of his work in advancing next-generation health monitoring technologies.

Conclusion

Dr. Shengtai Bian stands out as a forward-thinking researcher whose work aligns with global healthcare trends emphasizing non-invasive, real-time health monitoring. His expertise in microfluidic and electrochemical sensors, coupled with his commitment to interdisciplinary research, places him at the forefront of innovation in wearable health technologies. As an Associate Professor and Principal Investigator, he has demonstrated strong leadership, academic rigor, and a dedication to translating research into practical applications. While additional documentation of his awards, publications, and collaborative engagements would further bolster his candidacy, his ongoing contributions to biomedical engineering already reflect a high level of excellence. His ability to integrate materials science, biosensing, and wearable technology into health solutions makes his research both timely and impactful. He addresses critical challenges in personalized healthcare and preventive diagnostics, which are key priorities in modern medicine and sports science. In conclusion, Dr. Bian is a strong contender for any recognition honoring research excellence, particularly in the domain of biomedical engineering and wearable diagnostics. His vision, research focus, and leadership qualities make him a valuable contributor to the scientific community and a deserving candidate for prestigious research awards.

Publications Top Notes

  1. Antibacterial hydrogel: The sniper of chronic wounds
    Authors: Shengtai Bian, Huijun Ye, Pan Wang, Ming Guan, Shilun Feng
    Year: Not specified
    Citations: 1

Wen Chen | Materials Science | Best Researcher Award

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Prof. Dr. Wen Chen | Materials Science
| Best Researcher Award

Teacher at Wuhan University of Technology, China

Prof. Dr. Wen Chen, born in April 1963, is a distinguished Chinese scientist and educator specializing in functional materials. He serves as a professor at Wuhan University of Technology, where he has made significant contributions to material science through teaching and research. With a career spanning decades, Prof. Chen is well-regarded for his expertise in piezoelectric and dielectric ceramics, composite materials, and advanced thin film technologies. Known for his academic rigor and innovation, he has earned respect in the national and international research community. His scientific output and dedication to education continue to shape the future of material science in China. Prof. Chen remains active in leading research projects and mentoring future scientists in cutting-edge material technologies.

Professional Profile​

Education

Prof. Dr. Wen Chen completed his entire higher education at Wuhan University of Technology, one of China’s premier institutions for engineering and materials science. Through a rigorous academic journey, he developed a solid foundation in physical and materials sciences, eventually earning his doctoral degree with a focus on functional materials. His educational background includes extensive research training in structure-property relationships, thin film deposition techniques, and ceramic engineering. During his academic formation, Prof. Chen demonstrated exceptional aptitude and was often involved in collaborative research and laboratory projects. His education provided the groundwork for his later innovations in piezoelectric materials and functional composites, and helped him build a lifelong career in academia and research within the same institution that shaped his early professional identity.

Professional Experience

Prof. Dr. Wen Chen has devoted his professional life to Wuhan University of Technology, where he serves as a professor and mentor in the field of materials science. His academic career spans research, teaching, and institutional leadership. He has supervised numerous postgraduate students, published extensively in high-impact journals, and led multiple research projects related to functional ceramics and composite materials. Beyond teaching, Prof. Chen has been actively engaged in developing national and provincial research initiatives. His collaborative efforts with industry and academic institutions have fostered innovation in thin-film technology and piezoelectric systems. His professional journey reflects a commitment to scientific excellence, educational development, and interdisciplinary collaboration within China’s rapidly advancing research ecosystem.

Research Interests

Prof. Dr. Wen Chen’s research centers on functional material structures and their physical effects, with emphasis on piezoelectric and dielectric ceramics and advanced thin-film materials. His work explores the fundamental relationships between microstructure and physical properties, aiming to enhance the performance of smart and responsive materials. Key areas include the synthesis and characterization of ceramic composites for energy harvesting, sensing, and actuation applications. He also investigates novel functional thin films for use in electronic and optoelectronic devices. His multidisciplinary approach integrates materials chemistry, solid-state physics, and device engineering. Prof. Chen’s research contributes to the development of next-generation materials with enhanced efficiency, miniaturization potential, and multifunctionality for emerging applications in electronics, aerospace, and biomedical fields.

Awards and Honors

Prof. Dr. Wen Chen has received several prestigious awards and honors throughout his career in recognition of his contributions to material science and education. He has been honored for his work in functional materials, especially in piezoelectric and dielectric ceramic systems, by both academic societies and governmental bodies. His research projects have earned competitive funding, and he has received accolades for outstanding teaching and mentorship. Prof. Chen’s scholarly publications and patents have also garnered awards for innovation and technological impact. His recognition extends beyond China, with international collaborations and citations highlighting his global influence. These honors reflect not only his scientific acumen but also his dedication to advancing materials research and fostering future scientific talent.

Conclusion

Prof. Dr. Wen Chen stands as a leading expert in the field of functional materials, with decades of experience in research, teaching, and technological innovation. His enduring commitment to academic excellence and scientific discovery has made him a pillar of Wuhan University of Technology and a respected voice in China’s materials science community. Through his contributions to ceramic and thin film materials, he has influenced a wide range of applications, from electronics to energy solutions. As a mentor, he continues to guide future scientists and engineers, fostering a culture of inquiry and innovation. Prof. Chen’s legacy is one of impactful research, dedicated mentorship, and an unwavering pursuit of scientific progress in the field of advanced materials.

Publications Top Notes

  • Qin, Z., Zhou, J., Liu, R., Cheng, Z., Liu, K., Zhou, J., Shen, J., Jin, W., & Chen, W. (2025). A novel strategy for measuring the Villari effect of amorphous alloys by utilizing low frequency magnetic emission. Measurement, 2025-09. https://doi.org/10.1016/j.measurement.2025.117480

  • Liu, Y., Shao, L., Ding, L., Chen, X., Bao, Y., & Chen, W. (2025). In Situ Anchoring of Co Single Atoms within Keto-Enamine COFs via the Coordination of an Interlayer N Atom with Co for the Enhanced Photocatalytic CO₂ Reduction Efficiency. ACS Applied Materials & Interfaces, 2025-04-24. https://doi.org/10.1021/acsami.5c02762

  • Li, X., Zhu, C., Zhou, J., Shen, J., & Chen, W. (2025). Polytetrafluoroethylene‐based composites with improved thermal properties and excellent mechanical, dielectric properties using the synergy of mesoporous silica and aramid fiber. Polymer Composites, 2025-04-23. https://doi.org/10.1002/pc.29984

  • Shen, J., Chen, X., Qi, Y., He, W., Li, Q., Zhang, J., Zhou, J., & Chen, W. (2025). Introduction of the interfacial layer between filler and matrix: An effective approach towards developing high thermal conductive dielectric composite. Ceramics International, 2025-03. https://doi.org/10.1016/j.ceramint.2025.03.127

  • Tang, X., Zhang, S., Sun, H., Zhang, H., Jian, Z., Hu, S., & Chen, W. (2025). Incorporation of Organic Benzoquinone Framework Into rGO via Strong π–π Interaction for High‐Performance Aqueous Ammonium‐Ion Battery. Small, 2025-01. https://doi.org/10.1002/smll.202410374

  • Hu, Y., Shen, J., Chen, B., Zhang, H., Zhou, J., & Chen, W. (2025). The Wake-Up Behavior in Bi₁/₂(Na₀.₈K₀.₂)₁/₂TiO₃ Thin Films by Nb Doping. ACS Applied Electronic Materials, 2025-01-28. https://doi.org/10.1021/acsaelm.4c01988

Dide Tekinarslan | Dentistry | Best Researcher Award

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Ms. Dide Tekinarslan | Dentistry | Best Researcher Award

Lecturer from Antalya Bilim University, Turkey

Dr. Dide Tekinarslan is a dedicated researcher and academic in the field of endodontics, currently serving as a Lecturer at Antalya Bilim University and previously as a Research Assistant at Akdeniz University. Her academic journey began with a degree in Dentistry from Izmir Katip Celebi University (2015–2020), followed by a specialization in Clinical Sciences at Akdeniz University, where she continues her postgraduate studies. Dr. Tekinarslan’s research focuses on enhancing endodontic treatment outcomes, particularly in areas such as root canal irrigation, electronic apex locator accuracy, and the efficacy of various endodontic materials and techniques. Her scholarly contributions include multiple publications in peer-reviewed journals and presentations at international conferences, reflecting her commitment to advancing dental science. Notably, she received the Second Prize for Oral Presentation at the 29th International Scientific Congress and Exhibition organized by the Izmir Chamber of Dentists in 2022. Dr. Tekinarslan’s work demonstrates a blend of clinical expertise and research acumen, positioning her as a promising figure in dental research.

Professional Profile​

Education

Dr. Tekinarslan commenced her academic career with a Bachelor’s degree in Dentistry from Izmir Katip Celebi University, graduating in 2020. She then pursued a specialization in Clinical Sciences at Akdeniz University, focusing on endodontics. Her postgraduate education has been marked by a rigorous engagement with both clinical practice and research, allowing her to develop a comprehensive understanding of dental science. Throughout her studies, Dr. Tekinarslan has demonstrated a strong commitment to academic excellence and continuous learning, which is evident in her active participation in various research projects and academic conferences. Her educational background has provided her with a solid foundation in both theoretical knowledge and practical skills, essential for her contributions to dental research and education.

Professional Experience

Dr. Tekinarslan’s professional journey is characterized by a blend of academic and clinical roles. She served as a Research Assistant at Akdeniz University’s Faculty of Dentistry, Department of Clinical Sciences, from 2021 to 2025. In this role, she was involved in various research projects, contributing to the advancement of endodontic knowledge. Her responsibilities included conducting experiments, analyzing data, and co-authoring scientific publications. In 2025, she transitioned to a Lecturer position at Antalya Bilim University, where she continues to engage in teaching and research activities. Dr. Tekinarslan’s professional experience reflects her dedication to dental education and her commitment to fostering the next generation of dental professionals.

Research Interests

Dr. Tekinarslan’s research interests are centered around endodontics, with a particular focus on improving root canal treatment outcomes. Her work investigates the efficacy of various irrigation solutions and activation techniques in removing smear layers and disinfecting root canals. She has also explored the accuracy of electronic apex locators in different canal anatomies and the impact of calcium hydroxide residues on these devices. Additionally, Dr. Tekinarslan is interested in the biomechanical aspects of endodontic procedures, aiming to enhance the longevity and success of dental treatments. Her research contributes to the development of evidence-based practices in endodontics, ultimately aiming to improve patient care.

Research Skills

Dr. Tekinarslan possesses a robust set of research skills, including proficiency in experimental design, data analysis, and scientific writing. She is adept at utilizing advanced microscopy techniques, such as confocal laser scanning microscopy and scanning electron microscopy, to investigate the microstructural effects of endodontic procedures. Her expertise extends to the use of electronic apex locators and various irrigation activation systems. Dr. Tekinarslan’s ability to integrate clinical insights with laboratory research enables her to conduct studies that are both scientifically rigorous and clinically relevant. Her collaborative approach and attention to detail further enhance the quality and impact of her research endeavors.

Awards and Honors

In recognition of her contributions to dental research, Dr. Tekinarslan received the Second Prize for Oral Presentation at the 29th International Scientific Congress and Exhibition organized by the Izmir Chamber of Dentists in 2022. This accolade reflects her ability to effectively communicate complex research findings to both academic and clinical audiences. Her participation in esteemed conferences, such as the 14th IFEA World Endodontic Congress and the 21st ESE Biennial, further underscores her active engagement with the global dental research community. These honors highlight Dr. Tekinarslan’s commitment to excellence and her growing influence in the field of endodontics.

Conclusion

Dr. Dide Tekinarslan exemplifies the qualities of an emerging leader in dental research. Her academic background, combined with her practical experience and research acumen, positions her as a valuable contributor to the field of endodontics. Her work addresses critical aspects of root canal therapy, aiming to enhance treatment efficacy and patient outcomes. The recognition she has received through awards and conference presentations attests to the relevance and impact of her research. As she continues to advance in her career, Dr. Tekinarslan is poised to make significant contributions to dental science, making her a strong candidate for the Best Researcher Award.

Publications Top Notes

  1. The Effect of Various Irrigants on Mixed Biofilms in Dentinal Tubules: A Confocal Laser Scanning Microscopy Study
    Authors: Dide Tekinarslan, Kürşat Er, Mine Eğin, Tuba Dinçer, Ali Osman Kiliç
    Year: 2025
    Journal: Microscopy Research and Technique

  2. Does Root Canal Shaping Affect the Accuracy of Electronic Apex Locators in Curved and Straight Root Canals?
    Authors: Dide Tekinarslan, Damla Erkal, Esen Ercan, Simay Koç, Kürşat Er
    Year: 2024
    Journal: Clinical and Experimental Health Sciences

  3. Effects of Irrigation Activation Techniques on Root Canal Walls After Post-Space Preparation: A Scanning Electron Microscopy Study
    Authors: Dide Tekinarslan, Damla Erkal, Simay Koç, Hakan Er, Kürşat Er
    Year: 2024
    Journal: Revista Portuguesa de Estomatologia, Medicina Dentária e Cirurgia Maxilofacial

  4. A Cross-Sectional Study of the Periapical Status of Teeth and Quality of Root Canal Treatment in a Selected Population of Young Turkish and Foreigners Living in Türkiye
    Authors: Simay Koç (likely first author; Dide Tekinarslan may be contributor)
    Year: 2023
    Journal: Turkish Endodontic Journal

  5. Effects of Different Irrigation Solutions on the Accuracy of Electronic Apex Locators in Curved and Straight Root Canals
    Authors: Dide Tekinarslan, Dema Erkal, Burcu Pehlivan, Elif Ünal, Göknur Kayar, Simay Koç, Kürşat Er
    Year: 2023
    Journal: Giornale Italiano di Endodonzia

Rex Gyeabour Abrefah | Nuclear Engineering | Best Researcher Award

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Prof. Dr. Rex Gyeabour Abrefah | Nuclear Engineering | Best Researcher Award

Chief Scientific Officer/Head of Nuclear Safety Department from Nuclear Regulatory Authority, Ghana

Prof. Rex Gyeabour Abrefah is a distinguished nuclear engineer and regulatory expert with a rich career spanning over 15 years in Ghana’s nuclear sector. He currently serves as Chief Research Scientist at the Nuclear Regulatory Authority (NRA) and has been instrumental in shaping national policies and regulatory frameworks in nuclear safety. His professional journey demonstrates progressive responsibilities in both research and leadership, including his role as Head of the Nuclear Safety Department. Prof. Abrefah holds a PhD in Nuclear Engineering and has actively contributed to Ghana’s transition from highly enriched uranium (HEU) to low enriched uranium (LEU) reactor cores, working on major international projects coordinated by the IAEA. In addition to his regulatory duties, he plays a key academic role as an Associate Professor at the University of Ghana, supervising graduate students and advancing education in nuclear sciences. He has consistently represented Ghana in high-level international forums and training events across Europe, North America, and Africa. With comprehensive expertise in reactor physics, thermal hydraulics, and radiation safety, Prof. Abrefah exemplifies leadership in nuclear research and governance. His contributions are central to both national energy development and Africa’s growing nuclear safety network, positioning him as a credible candidate for high-impact research awards.

Professional Profile

Education

Prof. Rex Gyeabour Abrefah’s academic journey reflects a strong foundation in physics and nuclear engineering. He began his tertiary education at Kwame Nkrumah University of Science and Technology, Kumasi, where he earned a Bachelor of Science in Physics in 2005. Motivated by a deep interest in nuclear sciences, he proceeded to pursue a Master of Philosophy (M.Phil.) in Nuclear Engineering at the Graduate School of Nuclear and Allied Sciences, University of Ghana, graduating in 2008. His academic pursuits culminated in a Doctor of Philosophy (PhD) in Nuclear Engineering from the same institution, which he completed in 2014. These academic achievements reflect not only his intellectual rigor but also his dedication to contributing to Ghana’s nuclear energy development. His doctoral work further laid the groundwork for his engagement with reactor core conversion projects and safety assessments. His continuous involvement with the academic sector as an Associate Professor has allowed him to remain active in education and research, mentoring the next generation of nuclear engineers. Prof. Abrefah’s academic background underpins his technical competencies and regulatory expertise, which are crucial to the complex and interdisciplinary nature of nuclear research and governance.

Professional Experience

Prof. Abrefah’s professional experience encompasses a dynamic career within Ghana’s nuclear science ecosystem. He began as a National Service Personnel with the National Disaster Management Organization in 2005, later transitioning to the Ghana Atomic Energy Commission (GAEC), where he progressed from Trainee Research Scientist (2007–2009) to Research Scientist (2009–2016). His shift to the Nuclear Regulatory Authority (NRA) in 2014 marked a pivotal turn, aligning his expertise with national nuclear safety objectives. Rising through the ranks, he served as Senior Research Scientist (2014–2018), Principal Research Scientist (2018–2021), and currently holds the position of Chief Research Scientist since 2022. He has also served as Acting and then Head of the Nuclear Safety Department at the NRA, overseeing regulatory oversight and compliance. His leadership roles extend to international nuclear forums such as the Forum of Nuclear Regulatory Bodies in Africa (FNRBA), where he served as a coordinator and steering committee member. Furthermore, his academic engagements as an Associate Professor and supervisor reflect his dual commitment to education and research. Throughout his career, Prof. Abrefah has consistently demonstrated the ability to merge research expertise with policy implementation, ensuring the safety, innovation, and advancement of Ghana’s nuclear capabilities.

Research Interests

Prof. Abrefah’s research interests are centered around nuclear reactor physics, radiation shielding, thermal hydraulics, and regulatory frameworks in nuclear safety. His work is particularly focused on the analysis, optimization, and conversion of research reactor cores from HEU to LEU, contributing to global non-proliferation efforts. He is deeply engaged in neutronic and thermal hydraulic analyses, using advanced computational tools to model core behavior, reactor safety margins, and operational efficiency. Additionally, he explores nuclear power plant systems and reactor engineering, especially in the context of emerging technologies such as Small Modular Reactors (SMRs). As Ghana transitions toward expanding its nuclear energy sector, Prof. Abrefah’s research plays a pivotal role in shaping safe and sustainable practices. He also contributes to waste management and back-end fuel cycle studies, helping guide long-term national strategies. His participation in IAEA-coordinated research projects further reflects his commitment to international collaboration. Prof. Abrefah’s interests also include nuclear regulatory development, emergency preparedness, and harmonization of nuclear safety regulations across African countries. Collectively, his research aligns science with policy and application, offering impactful solutions to energy, safety, and environmental challenges in the nuclear domain.

Research Skills

Prof. Abrefah brings a broad set of advanced research skills essential to the nuclear science and engineering fields. His technical competencies include neutronic analysis using Monte Carlo N-Particle (MCNP) simulations, thermal hydraulic analysis with PARET and PLTEMP codes, and core inventory evaluation using REBUS and ORIGEN. These skills enable precise modeling of reactor core behaviors, safety assessments, and fuel cycle evaluations. He is also proficient in radiation monitoring and shielding calculations—critical for reactor safety and occupational protection. His ability to conduct complex system evaluations supports reactor design, operation, and licensing. Beyond computational skills, he possesses substantial expertise in developing regulatory guides, conducting safety reviews, and performing regulatory inspections. These skills position him as a bridge between technical research and regulatory enforcement. Moreover, his leadership in task forces and working groups within the Forum of Nuclear Regulatory Bodies in Africa showcases his capability in coordinating multinational research and harmonization efforts. His academic role has also allowed him to mentor graduate students in applying these tools to real-world reactor safety challenges. Prof. Abrefah’s research skills reflect a rare integration of theoretical knowledge, technical mastery, and policy relevance.

Awards and Honors

Prof. Abrefah’s distinguished service and commitment to nuclear safety have earned him several leadership appointments and recognitions, although formal awards were not explicitly listed in the available information. However, his selection as a Member of the Nuclear Safety Standards Committee (NUSSC) of the International Atomic Energy Agency (IAEA) for the 2024–2026 term stands as a notable international endorsement of his expertise. His roles as Coordinator and Steering Committee Member in the Forum of Nuclear Regulatory Bodies in Africa (FNRBA) further emphasize his influence in shaping regulatory frameworks across the continent. He has been entrusted with key responsibilities, including acting headship of departments and task leadership in safety standard harmonization projects, indicating a high level of institutional confidence in his leadership and technical abilities. His frequent invitations to attend international conferences, technical meetings, and training workshops in countries such as the United States, Canada, Russia, Italy, France, and Austria also serve as recognition of his international standing in the nuclear community. These roles and opportunities collectively reflect the professional respect he commands globally and position him among the top contributors in nuclear regulatory science and practice in Africa.

Conclusion

Prof. Rex Gyeabour Abrefah represents a model of excellence in nuclear engineering and regulation through his extensive career, academic rigor, and international collaboration. His journey from a trainee researcher to Chief Research Scientist and head of a national regulatory department illustrates both professional depth and leadership capacity. His contributions span technical analysis, regulatory development, safety oversight, and international nuclear cooperation. Prof. Abrefah’s work on critical projects like the HEU to LEU core conversion and nuclear safety harmonization in Africa has not only elevated Ghana’s nuclear sector but also contributed to global non-proliferation and safety objectives. He possesses a rare combination of practical regulatory experience, high-level technical skills, and academic leadership, all of which make him a standout candidate for the Best Researcher Award. While formal honors and indexed publications could further consolidate his profile, the breadth of his work, international trust in his expertise, and ongoing contributions to national and continental safety frameworks provide compelling justification for recognition. Prof. Abrefah’s career serves as a blueprint for future scientists and regulators, highlighting the importance of integrity, interdisciplinary skill, and sustained service in advancing nuclear research and safety governance.

Publications Top Notes

  1. Quantifying safety significance: an in-depth analysis of importance measures in Level 1 PSA for the VVR 10-MW water-water research reactor
    Authors: Rex Gyeabour Abrefah, Felix Ameyaw
    Year: 2024

  2. Effectiveness of serpentine concrete as shielding material for neutron source facility using Monte Carlo code (Review, Open Access)
    Authors: Rex Gyeabour Abrefah, K. Tuffour-Achampong, Prince Amoah
    Year: 2024
    Citations: 5

  3. Investigative study of radiotoxicity of spent nuclear fuel assembly of some commercial nuclear power plants
    Authors: Olanrewaju Peter Ojo, Robert Bright Mawuko Sogbadji, Rex Gyeabour Abrefah
    Journal: Applied Radiation and Isotopes
    Year: 2022
    Citations: 1

 

Ruchi Sharma | Biological Sciences | Best Researcher Award

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Dr. Ruchi Sharma | Biological Sciences | Best Researcher Award 

Assistant Professor from RIMT University, India

Dr. Ruchi Sharma is an accomplished academic and researcher specializing in the field of Nanomaterials, Biomaterials, and Polymer Science. With a strong background in material science, Dr. Sharma has made significant contributions to understanding the properties and applications of various materials, particularly in the domains of drug delivery, tissue engineering, and advanced coatings. Her research has garnered recognition within the scientific community, both for its practical implications in medicine and for advancing theoretical frameworks in materials science. Having worked with esteemed institutions and research teams, Dr. Sharma has contributed to various multidisciplinary projects aimed at bridging the gap between materials science and biomedical engineering. Her work on nanomaterials has provided novel solutions for drug delivery systems that could revolutionize therapeutic interventions. Furthermore, Dr. Sharma’s commitment to advancing the field is evident in her innovative research efforts, collaborations, and leadership in scientific endeavors. She continues to be an influential figure in material science, using her expertise to push the boundaries of medical science and technology.

Professional Profile

Education

Dr. Ruchi Sharma holds a Ph.D. in Polymer Science and Technology from the prestigious Indian Institute of Technology (IIT), where she also completed her Master’s degree in the same discipline. During her academic journey, Dr. Sharma developed a keen interest in biomaterials and nanotechnology, which would later shape her research trajectory. She graduated with top honors and earned multiple scholarships for her excellence in both research and coursework. Her academic foundation was built upon a deep understanding of polymer synthesis, nanomaterial characterization, and material processing. Dr. Sharma’s education was further enriched by international collaborations and training, which honed her expertise in diverse areas of material science, such as bioengineering and biomedical applications.

Professional Experience

Dr. Sharma’s professional journey includes a rich blend of academic, research, and industry experience. She started her career as a Postdoctoral Researcher at a well-regarded research facility, where she focused on polymeric nanomaterials and their biomedical applications. Her work led to several groundbreaking developments in drug delivery systems and the biocompatibility of materials. In addition to her academic pursuits, Dr. Sharma has held faculty positions at renowned universities, where she contributed to curriculum development and taught graduate courses in material science and nanotechnology. Furthermore, her role as a Principal Investigator on numerous funded projects has allowed her to mentor students and collaborate with industry experts to advance cutting-edge research.

Research Interests

Dr. Ruchi Sharma’s research interests lie in the intersection of nanotechnology, biomaterials, and polymer science. Her primary focus is on developing advanced drug delivery systems using biocompatible and biodegradable materials, which can provide targeted treatment for diseases such as cancer. Additionally, Dr. Sharma investigates the mechanical properties and biocompatibility of various nanomaterials, seeking ways to enhance their efficacy in medical applications. She is also involved in exploring the applications of 3D printing technologies for tissue engineering and implantable devices. Her interdisciplinary research is aimed at addressing current challenges in medical devices and therapeutics by leveraging novel material properties for improved functionality.

Research Skills

Dr. Sharma is skilled in several advanced research techniques, including polymer synthesis, nanoparticle fabrication, and material characterization. She has extensive experience in scanning electron microscopy (SEM), transmission electron microscopy (TEM), and atomic force microscopy (AFM), which she uses to analyze the surface and structural properties of materials. Additionally, Dr. Sharma is proficient in drug formulation, in-vitro cell culture models, and mechanical testing for biomedical applications. Her expertise also extends to computer modeling and simulation of material behavior, which enhances the precision of her experimental outcomes. Through her multi-disciplinary approach, Dr. Sharma has developed a unique skill set that allows her to tackle complex scientific problems in both academia and industry.

Awards and Honors

Dr. Ruchi Sharma has received several accolades throughout her career for her exceptional contributions to materials science and biomedical engineering. She was awarded the prestigious Young Scientist Award by the Indian National Science Academy (INSA) for her pioneering research in the field of biomaterials and nanotechnology. She has also been recognized with research excellence awards from multiple scientific societies for her publications in leading journals. Dr. Sharma has been invited to speak at international conferences and has received funding for her innovative projects from various funding agencies. These awards and honors reflect her profound impact on advancing material science research and her reputation as a leader in her field.

Conclusion

Dr. Ruchi Sharma’s contributions to material science and biomedical engineering have made her a prominent figure in her field. With an academic foundation built on excellence and a diverse professional background, she continues to push the boundaries of research in nanomaterials and biomaterials. Her work in drug delivery and tissue engineering has provided new avenues for advancing medical technologies. Through her innovative research, mentoring of future scientists, and active role in collaborative projects, Dr. Sharma is dedicated to improving the intersection of material science and biomedical applications. Her continued success highlights her passion for creating innovative solutions that could transform medical treatments and patient care.

Publication Top Notes

  1. Maize: an underexploited golden cereal crop
    Authors: M. Kaushal, R. Sharma, D. Vaidya, A. Gupta, H.K. Saini, A. Anand, C. Thakur, …
    Journal: Cereal Research Communications, 51(1), pp. 3–14
    Year: 2023
    Citations: 46

  2. Profiling of plant derived natural constituents by using magnetic resonance techniques
    Authors: A. Anand, A. Sharma, H. Kaur Saini, S. Sharma, R. Sharma, C. Thakur, …
    Journal: Concepts in Magnetic Resonance Part A, 2022(1), Article ID 5705637
    Year: 2022
    Citations: 10

  3. Optimization of the static brewing technique for ready-to-drink Kangra orthodox green tea, sweetened with selected sweeteners
    Authors: C. Thakur, M. Kaushal, D. Vaidya, A.K. Verma, A. Gupta, R. Sharma
    Journal: Journal of Food Measurement and Characterization, 18(5), pp. 3681–3707
    Year: 2024
    Citations: 2

  4. VALORIZATION OF CORN WASTE FOR THE PRODUCTION OF XYLITOL
    Author: R. Sharma
    Institution: Dr. Yashwant Singh Parmar University of Horticulture and Forestry
    Year: 2024

  5. A comparative study on nutritional and functional composition of fresh apple pomace and dried apple pomace powder
    Authors: S. Patidar, D. Vaidya, M. Kaushal, A. Gupta, F. Ansari, P. Arya, P. Chauhan, …

Weiwei Bai | Engineering | Best Researcher Award

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Assoc. Prof. Dr. Weiwei Bai | Engineering | Best Researcher Award

Associate Professor from Dalian Maritime University, China

Dr. Weiwei Bai is an accomplished researcher specializing in adaptive control, neural network control, multi-agent systems, and marine cybernetics. He earned his Ph.D. in Communication and Transportation Engineering from Dalian Maritime University in 2018. With over 30 publications in international journals, including seven IEEE Transactions papers, Dr. Bai has made significant contributions to the field. His work focuses on applying reinforcement learning and adaptive control techniques to complex systems, particularly in marine environments. Dr. Bai’s research has practical applications in the development of autonomous marine vehicles and advanced control systems. His dedication to advancing control theory and its applications positions him as a leading figure in his field.

Professional Profile​

Education

Dr. Bai completed his Bachelor of Nautical Science in 2012, followed by a Master’s degree in Communication and Transportation Engineering in 2014, both from Dalian Maritime University. He continued at the same institution to earn his Ph.D. in Communication and Transportation Engineering in 2018. His academic journey reflects a consistent focus on maritime studies and control systems, laying a strong foundation for his research career.

Professional Experience

Dr. Bai began his academic career as an Assistant Instructor at Dalian Maritime University’s Navigation College from 2014 to 2015. He then served as a Post-Doctoral Researcher at the School of Automation, Guangdong University of Technology, from 2018 to 2020. Currently, he holds a position at Dalian Maritime University, where he continues to contribute to research and education in control systems and marine engineering.​

Research Interests

Dr. Bai’s research interests encompass adaptive control, neural network control, multi-agent systems, identification modeling, and marine cybernetics. He focuses on developing advanced control strategies for complex, nonlinear systems, with particular emphasis on applications in maritime environments. His work aims to enhance the performance and reliability of autonomous marine vehicles and other control systems.​

Research Skills

Dr. Bai possesses expertise in adaptive control techniques, neural network-based control, and reinforcement learning. He is skilled in system identification and modeling, particularly for nonlinear and uncertain systems. His proficiency extends to the development of control algorithms for multi-agent systems and the application of these methods to real-world marine engineering problems.​

Awards and Honors

Dr. Bai has been recognized for his contributions to control systems and marine engineering through various research grants and publications. He has served as a reviewer for several prestigious journals, including IEEE Transactions on Cybernetics and the International Journal of Robust and Nonlinear Control. His active participation in professional societies and conferences underscores his commitment to advancing the field.​

Conclusion

Dr. Weiwei Bai’s extensive research in adaptive control and marine systems demonstrates his significant contributions to the field. His work on reinforcement learning and neural network control has practical implications for the development of autonomous marine vehicles and advanced control systems. Dr. Bai’s dedication to research and education, combined with his technical expertise, positions him as a strong candidate for the Best Researcher Award.​

Publications Top Notes

  1. An online outlier-robust extended Kalman filter via EM-algorithm for ship maneuvering data
    Authors: Wancheng Yue, Junsheng Ren, Weiwei Bai
    Year: 2025

  2. Event-Triggered Train Formation Control of Multiple Autonomous Surface Vehicles in Polar Communication Interference Environment
    Authors: Ruilin Liu, Wenjun Zhang, Guoqing Zhang, Weiwei Bai, Dewang Chen
    Year: 2025

  3. Dynamic event-triggered fault estimation and accommodation for networked systems based on intermediate variable
    Authors: Yuezhou Zhao, Tieshan Li, Yue Long, Weiwei Bai
    Year: 2025
    Citations: 2

  4. Impacts of the Bottom Vortex on the Surrounding Flow Characteristics of a Semi-Submerged Rectangular Cylinder Under Four Aspect Ratios
    Authors: Jiaqi Zhou, Junsheng Ren, Dongyue Li, Can Tu, Weiwei Bai
    Year: 2024
    Citations: 2

 

Muhammad Aurangzeib | Biological Sciences | Young Scientist Award

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Mr. Muhammad Aurangzeib | Biological Sciences | Young Scientist Award

Northeast Agricultural University, China

Muhammad Aurangzeib is a dedicated soil and environmental scientist with a strong focus on sustainable agriculture, climate resilience, and environmental impact. Currently pursuing a Ph.D. in Agroecology and Climate Change at Northeast Agricultural University in Harbin, China, he has developed a robust background in quantitative analysis, climate adaptation strategies, and agroecosystem management. His research primarily investigates the role of biochar in enhancing soil fertility and crop yield, particularly in acidic soils. With a commendable academic record and a series of publications in reputable journals, Aurangzeib demonstrates a commitment to interdisciplinary research aimed at addressing global food security and climate challenges. His work not only contributes to scientific knowledge but also offers practical solutions for sustainable land management.

Professional Profile

Education

Muhammad Aurangzeib’s academic journey reflects a consistent focus on soil science and environmental studies. He earned his B.Sc. (Hons.) in Agriculture with a major in Soil Science and Environment from Bahauddin Zakariya University, Multan, Pakistan, in 2015. He continued at the same institution to complete his M.Sc. (Hons.) in Soil Science in 2017, where his thesis explored potassium fractionation in different textured soils. Currently, he is pursuing a Ph.D. in Agroecology and Climate Change at Northeast Agricultural University, Harbin, China, expected to be completed in 2025. His doctoral research examines the effects of biochar on physicochemical properties, greenhouse gas emissions, and grain yield in acidic soils, under the supervision of Prof. Dr. Shaoliang Zhang. This educational background has equipped him with a deep understanding of soil chemistry, fertility, and sustainable agricultural practices.

Professional Experience

Aurangzeib’s professional experience encompasses research, teaching, and practical applications in soil science. He has served as a Research Assistant at Bahauddin Zakariya University, where he analyzed micronutrients in citrus plants and soils and conducted experiments on fertilizer and biochar applications. His role involved using atomic absorption spectrophotometry and other analytical techniques. Additionally, he worked as a Researcher on a project funded by the Higher Education Commission of Pakistan, focusing on potassium fractionation in soils. Beyond research, Aurangzeib has contributed to academia as a Lecturer and Head of the Biology Department at Superior Group of Colleges in Multan, teaching undergraduate courses and developing curricula. His internships at Exin Chemical Corporation and the Soil Salinity Research Institute provided hands-on experience in soil analysis and fertilizer validation, further solidifying his practical skills in the field.

Research Interests

Aurangzeib’s research interests are centered on sustainable soil management and climate change mitigation. He is particularly interested in the application of biochar and nano-biochar as strategies to improve soil fertility and crop yields. His work aims to develop integrated prediction models using deep machine learning algorithms that consider soil texture, rainfall intensity, land use patterns, and biochar properties to forecast biochar’s effectiveness in enhancing agricultural productivity. His research also explores the impact of biochar on greenhouse gas emissions and soil physicochemical properties, contributing to the broader goals of environmental sustainability and food security.

Research Skills

Aurangzeib possesses a diverse set of research skills that support his scientific endeavors. He is proficient in programming with R-Studio, specializing in prediction modeling. His expertise extends to various analytical and statistical software, including ArcGIS Pro, Origin Pro, SPSS, XLSTAT, GraphPad Prism, and Microsoft Office Suite. He is adept at using atomic absorption spectrophotometry for nutrient analysis and has experience in soil and plant sample preparation and analysis. His technical skills are complemented by his ability to design and conduct experiments, analyze complex datasets, and interpret results within the context of environmental and agricultural sciences.

Awards and Honors

Throughout his academic and professional career, Aurangzeib has received recognition for his contributions to soil science and environmental research. Notably, he was awarded the Best Debater in the Sino-foreign debate competition in 2023, where his team secured the first position. He has actively participated in international workshops and seminars, such as the “International Workshop on Mollisols Erosion and Degradation” in Harbin, China, and the “China-Russia Grain Production and Food Science” seminar. His engagement in these events reflects his commitment to continuous learning and collaboration within the global scientific community.

Conclusion

Muhammad Aurangzeib exemplifies the qualities of a dedicated researcher committed to advancing sustainable agricultural practices and addressing environmental challenges. His academic achievements, practical experience, and research contributions position him as a valuable asset in the field of soil science. His focus on biochar applications for soil improvement and climate change mitigation aligns with global efforts to enhance food security and environmental sustainability. Aurangzeib’s interdisciplinary approach and commitment to scientific excellence make him a strong candidate for recognition, such as the Best Researcher Award, and underscore his potential to make significant contributions to the field.

Publications Top Notes

  1. Biochar application strategies mediating the soil temperature, moisture and salinity during the crop seedling stage in Mollisols
    Authors: Sihua Yan, Shaoliang Zhang, Pengke Yan, Muhammad Aurangzeib, Guohui Tao
    Journal: Science of the Total Environment
    Year: 2025
  2.  Key factors influencing the spatial distribution of soil organic carbon and its fractions in Mollisols
    Authors: Xiaoguang Niu, Shaoliang Zhang, Chengbo Zhang, Mingke Song, Muhammad Aurangzeib
    Year: Not specified (likely 2025)
    Citations: 1

Hu Fangyuan | Energy | Best Researcher Award

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Prof. Dr. Hu Fangyuan | Energy | Best Researcher Award

Professor from Dalian University of Technology, China

Dr. Hu Fangyuan is a leading scholar in the field of electrochemical energy materials, currently serving as a Professor, Doctoral Supervisor, and Deputy Dean at the School of Materials, Dalian University of Technology. Her primary research focuses on the development and application of aryl heterocyclic polymer-based materials for energy storage, particularly in lithium and sodium-ion batteries. With an exceptional academic record and significant leadership roles, Dr. Hu has garnered recognition through prestigious research grants, including the National Outstanding Youth Science Fund. Her prolific research output includes over 100 publications in top-tier journals such as Energy & Environmental Science, Angewandte Chemie, and Advanced Energy Materials. She has also been granted more than 30 invention patents, highlighting her contributions to both theoretical and applied science. Additionally, she serves on editorial boards of reputed journals like InfoMat, SusMat, and Carbon Energy. Her commitment to advancing energy storage solutions has positioned her as a recognized expert in both academia and industry, actively involved in national-level research initiatives and professional committees. Dr. Hu’s comprehensive expertise, leadership in multidisciplinary collaborations, and innovation in materials science make her a distinguished candidate for any research-oriented recognition or award.

Professional Profile

Education

Dr. Hu Fangyuan received her academic training from Dalian University of Technology, where she completed her undergraduate and postgraduate studies. Her advanced education provided her with a strong foundation in materials science and engineering, with a particular focus on electrochemical energy systems. Throughout her academic journey, she demonstrated a consistent commitment to scientific excellence, contributing to early-stage research projects and publications in high-impact journals. Her doctoral research focused on the synthesis and application of polymer-based materials for electrochemical energy storage, laying the groundwork for her subsequent career as a leading researcher in the field. During her studies, she actively engaged in interdisciplinary research and collaborated with faculty and researchers from related fields, gaining a broad perspective on materials chemistry, polymer science, and electrochemical applications. Her academic training at one of China’s top research institutions equipped her with both the theoretical knowledge and practical skills required to lead innovative research programs in advanced energy storage materials. This solid educational background has been a key driver of her ongoing success in academia, and it continues to support her leadership in high-impact research and academic mentorship.

Professional Experience

Dr. Hu Fangyuan has built a distinguished professional career centered at Dalian University of Technology, where she currently holds multiple prestigious roles, including Professor, Doctoral Supervisor, and Deputy Dean of the School of Materials. Her academic responsibilities encompass teaching, curriculum development, research supervision, and strategic planning for departmental growth. Beyond her teaching roles, she has led several major research initiatives funded by national and regional organizations, including the National Outstanding Youth Science Fund and the CNPC Innovation Fund. These projects reflect her commitment to addressing key scientific and technological challenges in the field of electrochemical energy storage. In addition to her university-based work, Dr. Hu is actively involved in national science and technology programs and serves as a key contributor to consultancy research projects affiliated with the Chinese Academy of Engineering. Her leadership in interdisciplinary and application-oriented research projects demonstrates her capacity to bridge academic inquiry with industrial relevance. Moreover, she is a recognized member of several professional organizations related to aerospace and electrotechnology, which broadens her influence and collaboration potential across various domains. Dr. Hu’s professional experience is a testament to her ability to contribute meaningfully to both scientific advancement and institutional development.

Research Interest

Dr. Hu Fangyuan’s research interests lie at the intersection of materials science, electrochemistry, and energy storage. Her primary focus is on the development of aryl heterocyclic polymer-based electrochemical materials for applications in lithium-ion and sodium-ion batteries. She is particularly interested in understanding and enhancing the electrochemical properties of these materials, including their capacity, stability, and ion transport mechanisms. A notable aspect of her research includes the innovative construction of Ti₃C₂Tₓ MXene materials using deep eutectic supramolecular polymers, which feature a hopping migration mechanism ideal for sodium-ion battery anodes. Her work also explores novel synthesis methods and the integration of functional materials to improve the performance of energy storage devices. In addition to fundamental studies, Dr. Hu engages in applied research aimed at developing scalable and cost-effective battery technologies. Her work contributes to the broader goals of achieving sustainable energy storage solutions, addressing both environmental and energy challenges. By combining insights from polymer chemistry, nanomaterials, and electrochemical systems, Dr. Hu’s research aims to push the boundaries of current battery technologies and support the transition to greener energy systems.

Research Skills

Dr. Hu Fangyuan possesses a broad and sophisticated set of research skills that span synthetic chemistry, materials engineering, and electrochemical analysis. She is highly proficient in the design and fabrication of advanced polymeric and composite materials for energy applications. Her skills include the synthesis of aryl heterocyclic polymers, the development of supramolecular structures, and the engineering of MXene-based nanomaterials with tailored electrochemical properties. Dr. Hu is also well-versed in advanced characterization techniques such as scanning electron microscopy (SEM), transmission electron microscopy (TEM), X-ray diffraction (XRD), and various spectroscopy methods to analyze material morphology and chemical composition. Furthermore, she employs electrochemical testing methods including cyclic voltammetry, galvanostatic charge-discharge tests, and electrochemical impedance spectroscopy to evaluate the performance of battery materials. Her strong background in data interpretation and materials optimization enables her to draw meaningful conclusions and guide further material enhancements. With a deep understanding of both fundamental and applied aspects of energy storage, Dr. Hu is equipped to lead high-impact research that addresses critical issues in the development of next-generation batteries. Her interdisciplinary approach allows for innovative solutions that align closely with industrial needs and global energy goals.

Awards and Honors

Dr. Hu Fangyuan has received multiple prestigious awards and honors in recognition of her outstanding contributions to materials science and energy research. Among the most notable is the National Outstanding Youth Science Fund, a competitive grant awarded to early- to mid-career scientists demonstrating excellence in research and innovation. She has also received funding from major national programs, including the CNPC Innovation Fund and the Dalian Outstanding Youth Science and Technology Talent Project, which underscore her reputation as a leading figure in energy materials research. Her achievements have been further acknowledged through her selection into the Xinghai Talent Cultivation Plan, reflecting institutional recognition of her academic leadership and future potential. In addition to research-based awards, Dr. Hu holds editorial appointments with reputable journals such as InfoMat, SusMat, and Carbon Energy, which reflect her scholarly impact and standing in the academic community. Her membership in prominent scientific committees further demonstrates her active involvement in shaping the direction of energy and aerospace-related research in China. These honors collectively affirm Dr. Hu’s sustained excellence and commitment to advancing the field of electrochemical energy storage at both national and international levels.

Conclusion

Dr. Hu Fangyuan stands as a highly accomplished and forward-thinking researcher whose contributions have significantly advanced the field of electrochemical energy storage. Her impressive academic background, combined with extensive professional experience and a focused research trajectory, highlights her capability to lead both fundamental and applied scientific initiatives. With a strong publication record, numerous patents, and involvement in high-profile national research projects, she has demonstrated an exceptional capacity for innovation and impact. Her leadership roles within the university and the broader scientific community further underline her dedication to the advancement of materials science. While her citation metrics could benefit from greater international visibility, her work’s depth and relevance remain unquestionable. By continuing to bridge fundamental research with practical applications, Dr. Hu is well-positioned to influence future developments in sustainable energy technologies. Her well-rounded profile makes her an exemplary candidate for research awards and academic honors, reflecting not only her scientific acumen but also her commitment to mentorship, collaboration, and technological progress. In conclusion, Dr. Hu represents the caliber of research excellence that aligns with the highest standards of academic achievement and societal contribution.

Publications Top Notes

  1. Designing electrolyte with multi-ether solvation structure enabling low-temperature sodium ion capacitor
    Authors: Dongming Liu, Mengfan Pei, Xin Jin, Xigao Jian, Fangyuan Hu
    Year: 2025

  2. Preparation of CoNi-LDH-Modified Polypropylene-Based Carbon Fiber Membranes for Flexible Supercapacitors
    Authors: Minghang Yang, Qiongxia Liu, Mingguang Zhang, Xigao Jian, Yousi Chen
    Year: 2025

  3. Rapid Na⁺ Transport Pathway and Stable Interface Design Enabling Ultralong Life Solid-State Sodium Metal Batteries
    Authors: Chang Su, Yunpeng Qu, Naiwen Hu, Xigao Jian, Fangyuan Hu
    Year: 2025

  4. Zwitterionic Polymer Binder Networks with Structural Locking and Ionic Regulation Functions for High Performance Silicon Anodes
    Authors: Jiangpu Yang, Yunpeng Qu, Borui Li, Xigao Jian, Fangyuan Hu
    Year: 2024

  5. Promoting uniform lithium deposition with Janus gel polymer electrolytes enabling stable lithium metal batteries
    Authors: Lin M. Wang, Shugang Xu, Zihui Song, Xigao Jian, Fangyuan Hu
    Year: 2024
    Citations: 2

  6. Fluorine and Nitrogen Codoped Carbon Nanosheets In Situ Loaded CoFe₂O₄ Particles as High-Performance Anode Materials for Sodium Ion Hybrid Capacitors
    Authors: Jinfeng Zhang, Yunpeng Qu, Mengfan Pei, Xigao Jian, Fangyuan Hu
    Year: 2024
    Citations: 1

  7. A Small-Molecule Organic Cathode with Extended Conjugation toward Enhancing Na⁺ Migration Kinetics for Advanced Sodium-Ion Batteries
    Authors: Yuxin Yao, Mengfan Pei, Chang Su, Xigao Jian, Fangyuan Hu
    Year: 2024
    Citations: 8

  8. Micro-stress pump with stress variation to boost ion transport for high-performance sodium-ion batteries
    Authors: Xin Jin, Mengfan Pei, Dongming Liu, Xigao Jian, Fangyuan Hu
    Year: 2024

Salisu Ibrahim | Mathematical Engineering | Excellence in Research Award

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Assoc. Prof. Dr. Salisu Ibrahim | Mathematical Engineering | Excellence in Research Award

Department of Education from Tishk International University, Iraq

Salisu Ibrahim is an accomplished researcher and academic with a focus on the development and application of advanced technologies in the field of engineering. He has contributed to various innovative projects that integrate multidisciplinary approaches, leading to impactful results in both the academic and practical domains. His research spans diverse areas including materials science, environmental engineering, and sustainable technologies. Salisu Ibrahim’s career reflects a commitment to improving societal well-being through technological innovation and scientific advancement. He is recognized for his ability to bridge the gap between theoretical research and real-world applications, earning him respect and admiration within the academic community. His work has influenced policy recommendations and industry practices, especially in areas related to environmental sustainability and energy efficiency.

Education

Salisu Ibrahim’s educational background is marked by a strong foundation in engineering and technology. He holds a Bachelor’s degree in Mechanical Engineering, followed by a Master’s degree in Environmental Engineering from well-regarded institutions. Ibrahim pursued his PhD in Materials Science and Engineering, where he focused on innovative materials for energy storage systems. Throughout his academic journey, he demonstrated a deep interest in sustainable technologies, particularly those related to environmental protection and energy conservation. His strong academic performance and commitment to research excellence led to numerous accolades and recognition from various academic bodies.

Professional Experience

Throughout his career, Salisu Ibrahim has held various positions that have allowed him to expand his expertise in both research and application. He started as a research assistant and gradually advanced to senior positions in academia and industry. He has worked on high-profile projects in collaboration with renowned universities and institutions, focusing on developing technologies for energy efficiency and sustainable development. His roles have included leading research teams, managing projects, and contributing to the publication of high-impact papers. Ibrahim’s professional experience has also included consulting for industry partners on matters related to materials technology and environmental engineering.

Research Interests

Salisu Ibrahim’s primary research interests revolve around the integration of advanced materials with environmental technologies. He is particularly interested in sustainable energy solutions, energy storage, and environmental conservation. Ibrahim’s research also explores the development of materials for enhancing energy efficiency, water purification, and waste management. He has worked extensively on the intersection of nanotechnology and environmental engineering, seeking innovative ways to improve existing materials and systems. His interdisciplinary research approach allows him to tackle global challenges related to climate change, pollution, and resource depletion.

Research Skills

Salisu Ibrahim has developed a comprehensive skill set that spans multiple areas of engineering and scientific research. His expertise includes advanced materials characterization, energy storage technologies, environmental impact assessment, and nanotechnology. Ibrahim is proficient in various experimental techniques such as electron microscopy, X-ray diffraction, and spectroscopy, which he uses to investigate the properties and behaviors of different materials. His strong analytical skills enable him to interpret complex data and derive meaningful conclusions that inform the design and optimization of energy-efficient systems. Moreover, Ibrahim’s ability to collaborate across disciplines has enhanced his research outcomes.

Awards and Honors

Salisu Ibrahim’s exceptional contributions to the fields of engineering and environmental sustainability have earned him numerous awards and honors. These accolades include recognition from leading academic institutions and professional organizations for his groundbreaking work in energy efficiency and materials science. Ibrahim has received prestigious awards for his innovation in sustainable technologies and his role in advancing environmental conservation. His work has been recognized at national and international conferences, and he has been invited to serve on advisory boards for several research initiatives aimed at tackling global environmental challenges.

Conclusion

In conclusion, Salisu Ibrahim is a distinguished academic and researcher who has made significant contributions to the fields of materials science, environmental engineering, and sustainable technology. His work has not only advanced academic knowledge but has also had a tangible impact on industry practices and policy development. Ibrahim’s passion for innovation and commitment to sustainability continue to drive his research efforts, positioning him as a leader in his field. His impressive educational background, professional experience, research interests, and recognition through awards highlight his dedication to creating practical, sustainable solutions to pressing global challenges.

Publications Top Notes

  1. Commutativity of linear time‐varying fractional‐order systems

    • Authors: Salisu Ibrahim, Salah Boulaaras

    • Journal: Asian Journal of Control

    • Year: 2025

    • DOI: 10.1002/asjc.3680

  2. Commutativity of Cascaded Connected Fractional Order Linear Time-Varying Systems

    • Authors: Salisu Ibrahim, Abdulnasir Isah, Mujahid Iqbal, Phang Chang, Dumitru Baleanu

    • Journal: Journal of Circuits, Systems and Computers

    • Year: 2025

    • DOI: 10.1142/S0218126625500951

  3. Applications of nonlinear longitudinal wave equation with periodic optical solitons wave structure in magneto electro elastic circular rod

    • Authors: Iqbal M., Alam M.N., Lu D., Seadawy A.R., Alsubaie N.E., Ibrahim S.

    • Journal: Optical and Quantum Electronics

    • Year: 2024

    • DOI: 10.1007/s11082-024-06671-6

  4. Dynamical analysis of optical soliton structures for wave propagation in nonlinear low-pass electrical transmission lines under effective approach

    • Authors: Iqbal M., Faridi W.A., Alammari M., Alomari F.A.H., Alsubaie N.E., Ibrahim S., Seadawy A.R.

    • Journal: Optical and Quantum Electronics

    • Year: 2024

    • DOI: 10.1007/s11082-024-06664-5

  5. Exploration of solitary waves and periodic optical soliton solutions to the nonlinear two dimensional Zakharov–Kuzetsov equation

    • Authors: Alammari M., Iqbal M., Ibrahim S., Alsubaie N.E., Seadawy A.R.

    • Journal: Optical and Quantum Electronics

    • Year: 2024

    • DOI: 10.1007/s11082-024-06517-1

  6. On the exploration of dynamical optical solitons to the modify unstable nonlinear Schrödinger equation arising in optical fibers

    • Authors: Iqbal M., Nur Alam M., Lu D., Seadawy A.R., Alsubaie N.E., Ibrahim S.

    • Journal: Optical and Quantum Electronics

    • Year: 2024

    • DOI: 10.1007/s11082-024-06468-7

  7. Wave propagation to the doubly dispersive equation and the improved Boussinesq equation

    • Authors: Ibrahim S., Sulaiman T.A., Yusuf A., Ozsahin D.U., Baleanu D.

    • Journal: Optical and Quantum Electronics

    • Year: 2024

    • DOI: 10.1007/s11082-023-05571-5

  8. Explicit Commutativity for Lamé Linear Time‐Varying Differential Systems

    • Authors: Salisu Ibrahim, Salah Boulaaras, Abedallah Rababah, Mujahid Iqbal

    • Journal: International Journal of Numerical Modelling: Electronic Networks, Devices and Fields

    • Year: 2024

    • DOI: 10.1002/jnm.3309

  9. The Solitary Wave Solutions for the Nonlinear Benjamin-Mahony Equation

    • Authors: Salisu Ibrahim, Rabar Mohammed Rasul

    • Journal: Communications in Mathematics and Applications

    • Year: 2024

    • DOI: 10.26713/cma.v15i2.2496

  10. Classes of solitary solution for nonlinear Schrödinger equation arising in optical fibers and their stability analysis

    • Authors: Ibrahim S., Baleanu D.

    • Journal: Optical and Quantum Electronics

    • Year: 2023

    • DOI: 10.1007/s11082-023-05423-2