Iliana Ivanova | Experimental Design | Research Excellence Award

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Prof. Dr. Iliana Ivanova | Experimental Design | Research Excellence Award

Prof. Dr. Iliana Ivanova | Experimental Design | Research Excellence Award | Faculty of Biology at Sofia University St. Kliment Ohridski | Bulgaria

Prof. Dr. Iliana Ivanova is an internationally respected microbiologist and nanobiotechnology researcher with a distinguished academic and scientific career centered on antimicrobial nanomaterials, green synthesis of nanoparticles, bacterial physiology, ecotoxicology, and water quality assessment. She holds a Ph.D. in Microbiology and advanced postgraduate training in biochemistry and microbiology from Sofia University Saint Kliment Ohridski, where she currently serves as Professor in the Faculty of Biology, Department of General and Industrial Microbiology. Her professional experience spans decades of progressive academic leadership, including roles as associate professor and professor, with sustained excellence in teaching, research supervision, and project leadership. Prof. Dr. Iliana Ivanova has actively participated in and led numerous nationally and internationally funded research projects, including competitive programs supported by the Bulgarian National Science Fund and Sofia University, addressing topics such as multifunctional nanoceramics, antimicrobial graphene composites, green nanoparticle synthesis, and environmental toxicity assessment. Her research interests focus on the development of metal and metal-oxide nanomaterials with antibacterial, antibiofilm, and cytotoxic properties, integration of microbiological assays with materials science, and the evaluation of ecological safety using microbial and aquatic test systems.

 

Citation Metrics (scopus)

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Citations
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🟦 Citations    🟥 Documents    🟩 h-index


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Featured Publications

Structure, Ecotoxicity, Redox and Bactericidal Activity of Cu-Containing Nanocrystalline Ferrites – Molecules, 2025 

The Antimicrobial Effect and ROS Redox Activity of Nb₂O₅-Containing Powders Obtained by the Sol–Gel Method – Gels, 2025 

Antimicrobial, Oxidant, Cytotoxic, and Eco-Safety Properties of Sol–Gel-Prepared Silica–Copper Nanocomposite Materials – Pharmaceuticals, 2025 

Optical, Photocatalytic, and Antibacterial Properties of Sol-Gel Derived Fe-Doped SrTiO₃ Powders – Water, 2025 

Bahar Ciftci | Experimental Design | Best Researcher Award

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Assoc. Prof. Dr. Bahar Ciftci | Experimental Design | Best Researcher Award

Assoc. Prof. Dr. Bahar Ciftci | Experimental Design | Best Researcher Award | Doctor | Atatürk University | Turkey 

Assoc. Prof. Dr. Bahar Ciftci is a distinguished academic and researcher in the field of nursing education, patient care, and healthcare innovation, currently serving as a faculty member at the Faculty of Nursing, Atatürk University, Turkey. Holding a Ph.D. in Nursing, Dr. Bahar Ciftci has dedicated her academic career to advancing evidence-based nursing practices, enhancing clinical decision-making, and fostering professional growth among nursing students through innovative and technology-integrated teaching methods. Her research interests encompass nursing principles, health literacy, cultural sensitivity, psychosocial care, chronic disease management, and the integration of digital and simulation-based learning tools in healthcare education. Throughout her career, Dr. Bahar Ciftci has combined academic excellence with practical innovation, contributing to healthcare improvements through the development of six national and four international patent applications focused on innovative nursing and healthcare solutions. Her scholarly work is widely recognized, with over 40 peer-reviewed publications in prestigious international journals indexed in Scopus, Web of Science, and PubMed, including BMC Nursing, World Journal of Psychiatry, Nurse Education in Practice, and Perspectives in Psychiatric Care. Dr. Bahar Ciftci’s research contributions have received more than 380 citations globally, reflecting her growing academic impact and influence within the international nursing research community. She has also served as a peer reviewer for over 50 manuscripts across more than 10 reputable journals and authored several editorials that promote interdisciplinary collaboration and evidence-based clinical education. Her research skills include advanced data analysis, psychometric scale development, and clinical trial methodology, alongside expertise in designing qualitative and quantitative research models that address current challenges in healthcare delivery. Professionally, she has been recognized with multiple academic honors for excellence in nursing education, research innovation, and interdisciplinary leadership. She actively collaborates with international scholars and participates in research projects that bridge education, innovation, and patient care. As an educator and mentor, Dr. Bahar Ciftci demonstrates exceptional leadership and communication skills, guiding both undergraduate and postgraduate students toward research excellence and professional growth. Her ability to translate theoretical research into practical healthcare innovations exemplifies her forward-thinking approach and dedication to improving patient outcomes. In conclusion, Assoc. Prof. Dr. Bahar Ciftci stands out as an inspiring academic leader and healthcare innovator whose commitment to excellence, evidence-based practice, and educational advancement continues to shape the future of nursing and global healthcare research.

Profile:  Google scholar | Scopus | ORCID

Featured Publications 

  1. Ciftci, B., & Avsar, G. (2022). Impact of continued planned education provided by clinical nurses on patients with chronic heart failure. Iranian Red Crescent Medical Journal, 24(1). Citations: 35

  2. Yildiz, G. N., Şirin Gök, M., & Ciftci, B. (2024). Development and psychometric validation of the comfort scale for injection. BMC Nursing, 23(1), 903. Citations: 18

  3. Ciftci, B., Bahçecioğlu, T. G., & Sarialioğlu, A. (2024). The effects of web-based progressive muscle relaxation exercise on perceived stress and anxiety levels of nursing students who were in clinical practice for the first time: A randomized controlled trial. Srpski Arhiv Za Celokupno Lekarstvo, 152(9–10), 492–498. Citations: 22

  4. Aydın, A., Gok, M. Ş., & Ciftci, B. (2025). A “quiet” need in the disaster of the century: A qualitative study on menstrual hygiene management. BMC Public Health, 25, 493. Citations: 12

  5. Bozkurt, T., Nacak, U. A., Karakaş, E., & Ciftci, B. (2025). The effect of stoma care teaching based on the ARCS motivation model on nursing students’ learning motivation, self-efficacy, and knowledge levels. Nurse Education in Practice, 82, 104207. Citations: 10

  6. Yildirim, N., & Ciftci, B. (2024). Health perception and healthy life awareness during the COVID-19 pandemic: Turkey profile study. Indian Journal of Public Health, 68(3), 401–406. Citations: 15

  7. Yildiz, G. N., & Ciftci, B. (2025). Narrative nursing as a holistic approach in modern healthcare: Integrating emotional and physical care. World Journal of Psychiatry, 15(3), 102956. Citations: 14.

 

Volodymyr Tychkov | Experimental Design | Best Researcher Award

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Assoc. Prof. Dr. Volodymyr Tychkov | Experimental Design | Best Researcher Award

Assoc. Prof. Dr. Volodymyr Tychkov | Experimental Design | Best Researcher Award | Associate Professor | Cherkasy State Technological University | Ukraine 

Assoc. Prof. Dr. Volodymyr Tychkov is a researcher from Cherkasy State Technological University whose work lies at the intersection of instrumentation, mechatronics, non‐destructive testing, mathematical modelling, and optimization. He holds a Ph.D. (Technical Sciences) from Cherkasy State Technological University, awarded in 2017, and since then has built a strong professional profile: serving as Associate Professor in the Department of Instrumentation, Mechatronics and Computerized Technologies, Deputy Head of Faculty for Research, Full Academic of the Ukrainian Academy of Engineering Sciences, and active member of the Ukrainian Society for Non-Destructive Testing. His research interest centers on designing eddy current probes and excitation systems, surrogate models, active (meta)heuristic optimization, electromagnetic field modelling, and analytical instrumentation with applications in materials diagnostics and industrial process control. He has developed strong research skills in mathematical and computational modelling, electromagnetic probe synthesis, machine learning / surrogate modelling, signal‐noise suppression, and techniques for fast, accurate evaluation of material properties via non-destructive testing (including multifrequency and moving probe systems). Among his awards and honors are his election as a Full Academic in 2023 to the Ukrainian Academy of Engineering Sciences and other recognitions in his field for contributions to non-destructive testing; he has co-authored nearly 290 publications, showing strong citation and indexing via Scopus and related databases. In summary, Assoc. Prof. Dr. Volodymyr Tychkov has demonstrated consistent academic excellence, leadership in research, interdisciplinary collaboration, high productivity, and innovation in measurement technologies, making him a key contributor to instrumentation and diagnostics; his work promises continued impact in developing advanced non-destructive testing tools, optimization methods, and educational leadership in Ukraine and internationally.

Profile:  Google scholar Scopus | ORCID

Featured Publications

  1. Halchenko, V. Y., Trembovetska, R. V., & Tychkov, V. V. (2021). Surrogate synthesis of excitation systems for frame tangential eddy current probes. Archives of Electrical Engineering, 70(4), 743-757.

  2. Halchenko, V. Y., Trembovetska, R. V., & Tychkov, V. V. (2021). Surrogate synthesis of frame eddy current probes with uniform sensitivity in the testing zone. Metrology and Measurement Systems, 28(3), 551-564.

  3. Trembovetska, R. V., Halchenko, V. Y., & Tychkov, V. V. (2018). Studying the computational resource demands of mathematical models for moving surface eddy current probes for synthesis problems. Eastern-European Journal of Enterprise Technologies, 5(5 (95)), 39-46.

  4. Halchenko, V., Trembovetska, R., Bazilo, C., & others. (2023). Computer Simulation of the Process of Profiles Measuring of Objects Electrophysical Parameters by Surface Eddy Current Probes. In Information Technology for Education, Science, and Technics (ITEST 2022) (Lecture Notes on Data Engineering and Communications Technologies, Vol. 178), 411-424.

  5. Halchenko, V. Y., Trembovetska, R. V., & Tychkov, V. V. (2020). Surface Eddy Current Probes: Excitation Systems of the Optimal Electromagnetic Field (Review). Devices and Methods of Measurements, 11(2), 91-104.

 

Mengge Li | Experimental Design | Best Researcher Award

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Ms. Mengge Li | Experimental Design | Best Researcher Award

PhD candidate | Shenyang Jianzhu University | China

Ms. Mengge Li is an accomplished and dedicated early-career researcher in civil engineering with a deep passion for advancing structural engineering design and resilience research through cutting-edge methodologies and collaborative academic endeavors. She graduated with a bachelor’s degree in civil engineering from Shenyang Jianzhu University and continued her academic journey with a master’s degree in civil engineering from the same institution, where she achieved excellent academic standing and was awarded multiple scholarships for her outstanding performance. Currently, she is pursuing her Ph.D. in civil engineering at Shenyang Jianzhu University, focusing on the testing, simulation, and design of square concrete-filled steel tubular beam-columns internally reinforced with I-section CFRP profiles under cyclic loading. Her research explores seismic performance, hysteretic behavior, and restoring force models of concrete-filled steel tubular members with CFRP reinforcement, aiming to improve safety and efficiency in structural engineering applications. Ms. Mengge Li has authored 3 documents, 2 Citations, 1 h-index, which have been published in reputed sources such as Engineering Structure (Q1), Journal of Building Structures, and proceedings of the 15th International Conference on Fibre-Reinforced Polymers for Reinforced Concrete Structures (FRPRCS-15) & the 8th Asia-Pacific Conference on FRP in Structures (APFIS-2022). Her professional experience includes extensive involvement in experimental testing, finite element modeling, and structural simulation, showcasing her ability to integrate theory with practice. She is proficient in English, holding GET-6 certification, and has strong communication skills that allow her to collaborate effectively in both domestic and international research projects. Her research interests include high-strength concrete-filled steel tubular structures, CFRP reinforcement techniques, seismic performance analysis, and finite element modeling for sustainable construction. Ms. Mengge Li possesses excellent research skills such as data analysis, simulation modeling, and experimental design, as well as advanced office and presentation software proficiency, including Word, Excel, PPT beautification, and form creation, ensuring her work is presented with clarity and precision. In recognition of her academic excellence, she has received prestigious honors such as the doctoral student admission scholarship, doctoral graduate academic scholarship, and second-class graduate scholarship (twice), along with major national awards including the National First Prize in the Second National College Students Industrialized Architecture and Smart Construction Competition and the “Zhang Jiang Guoxin An Cup” BIM Modeling Competition.

Profile:  Scopus

Featured Publications

  1. Li, M. (2022). Testing, simulation, and design of square concrete-filled steel tubular beam-columns with internal I-section CFRP profiles under cyclic loading. Engineering Structure.

  2. Li, M. (2022). Experimental study on hysteretic behavior of concrete-filled square steel tubular members with I-section CFRP profiles with different steel ratios. Journal of Building Structures.

  3. Li, M. (2022). Research on the restoring force model of high-strength concrete-filled high-strength square steel tubular members under pure bending. Journal of Shenyang Jianzhu University (Natural Science).

  4. Li, M. (2022). Finite element analysis of concrete-filled square steel tubular columns internally reinforced by pultruded CFRP profile under cyclic loading. Proceedings of the 15th International Conference on FRPRCS & APFIS-2022.

  5. Li, M. (2022). Research on seismic performance of concrete-filled square steel tubular columns with CFRP profiles. Industrial Construction.

 

Vahid Hassani | Experimental Design | Best Researcher Award

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Dr. Vahid Hassani | Experimental Design | Best Researcher Award

Dr. Vahid Hassani | Experimental Design | Research Fellow | University of Southampton | United Kingdom

Dr. Vahid Hassani is a distinguished Mechanical Design Engineer and accomplished researcher, recognized for his expertise in the design and optimisation of electromechanical systems, robotics, and applied artificial intelligence in engineering design. With extensive experience in both academia and industry, he has successfully led multidisciplinary projects focused on advancing energy-efficient mechanical systems and automation solutions. His professional journey reflects a commitment to innovation, problem-solving, and the translation of complex theoretical concepts into practical, industry-ready applications. Through his work, Dr. Vahid Hassani continues to contribute to the development of next-generation engineering solutions that address critical challenges in manufacturing, transport, and sustainable energy systems.

Professional Profile 

Education

Dr. Vahid Hassani earned his Ph.D. in Mechanical Engineering with a specialization in the dynamic modelling of piezoelectric actuators and precision mechanisms. His doctoral research focused on developing mathematical models to improve hysteresis characterization and enhance control accuracy in structural dynamics applications. He holds a Master’s degree in Aerospace Engineering, where he worked on designing and modelling advanced control systems using internal moving masses and dynamic neural network algorithms. He also holds a Bachelor’s degree in Aircraft Mechanical Engineering, equipping him with a strong foundation in mechanical systems and aeronautical maintenance, which laid the groundwork for his future research in mechanical system design and robotics.

Experience

Dr. Vahid Hassani has held senior research and innovation positions at leading global institutions, where he has made significant contributions to projects in compressor technology, rail vehicle energy harvesting, and predictive maintenance systems. His work includes the development of FPGA-based monitoring systems, CFD-driven performance optimisation, and additive manufacturing solutions for complex mechanical assemblies. He has collaborated with industry partners to deliver practical solutions such as 3D-printed nodal joints, ultrasonic sensor mounts, and AI-enabled delay prediction models for freight systems. Beyond research, he has taught undergraduate and postgraduate courses in mathematics, mechatronics, additive manufacturing, and control theory, playing a pivotal role in mentoring the next generation of engineers.

Research Interest

Dr. Vahid Hassani’s research interests span mechanical system design, design optimisation, robotics, and the integration of artificial intelligence for engineering applications. He is particularly focused on developing computational models and simulation tools that improve system reliability, energy efficiency, and manufacturing performance. His work in additive manufacturing and computational mechanics addresses challenges in creating lightweight, high-strength structures, while his projects in robotics and automation explore intelligent solutions for precision manufacturing. His research approach is inherently interdisciplinary, combining elements of mechanical engineering, control systems, and data-driven AI methodologies to solve real-world engineering problems.

Award

Dr. Vahid Hassani has been recognized with several awards for his contributions to research and innovation. He was a recipient of a prestigious research scholarship that supported his doctoral studies, highlighting the originality and impact of his work. He has also been awarded for his contributions to composite product development in international competitions, showcasing his ability to combine creativity and technical expertise to deliver innovative solutions. These recognitions underscore his dedication to pushing the boundaries of mechanical engineering and fostering collaboration between academia and industry.

Selected Publications

“Some of his notable publications include: “Design Optimisation of Additive Manufactured Pressure Regulators” (Published 2020, 52 Citations)”.

“Computational Modelling of Piezoelectric Actuators for Precision Control Applications” (Published 2019, 61 Citations).

“AI-Driven Predictive Maintenance for Rail Vehicle Systems” (Published 2021, 38 Citations).

“Multi-Agent Robotic Systems for Manufacturing Automation” (Published 2018, 44 Citations).

Conclusion

Dr. Vahid Hassani stands out as a leading researcher and engineer whose work bridges the gap between theoretical modelling and practical implementation. His significant contributions to mechanical system design, robotics, and applied AI have resulted in solutions that improve performance, sustainability, and reliability in critical engineering systems. His dedication to mentorship, collaboration, and continuous innovation positions him as a valuable contributor to the global engineering community. Dr. Vahid Hassani future research potential, combined with his leadership in interdisciplinary projects, makes him a highly deserving nominee for recognition in the field of engineering research and innovation.

 

 

Luwen Yu | Experimental Design | Women Researcher Award

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Assist. Prof. Dr. Luwen Yu | Experimental Design | Women Researcher Award

Assist. Prof. Dr. Luwen Yu | Experimental Design | Assistant Professor | The Hong Kong University of Science and Technology | China 

Assist. Prof. Dr. Luwen Yu is an accomplished academic and researcher in the field of computational media, color science, and human–computer interaction. She serves as an Assistant Professor at the Computational Media and Arts (CMA) department of The Hong Kong University of Science and Technology (Guangzhou) and is also a cross-campus faculty affiliate at HKUST in Hong Kong. Dr. Yu is widely recognized for her pioneering work that integrates design, psychology, and technology, offering new insights into how color perception and visual communication influence user cognition, decision-making, and behavior. Her career reflects a balance between research excellence, teaching commitment, and international collaboration, making her a leading figure in advancing the interdisciplinary connection between design science and computational media.

Professional Profile 

Education

Assist. Prof. Dr. Luwen Yu holds a Ph.D. from the University of Leeds, School of Design, where her doctoral research explored the effect of color on consumer purchase behavior under the guidance of distinguished supervisors. Prior to her doctoral studies, she completed both her master’s and bachelor’s degrees at Huazhong University of Science and Technology in the Department of Industrial Design, focusing on the intersection of design principles, human factors, and user experience. Her education has provided her with a strong foundation in design research methodology, experimental analysis, and applied color science, equipping her to approach research questions with methodological rigor and creativity.

Experience

Assist. Prof. Dr. Luwen Yu’s professional journey includes significant academic and research positions that have strengthened her interdisciplinary expertise. Before joining HKUST, she worked as a Postdoctoral Researcher at the University of Leeds, where she collaborated with leading researchers in design cognition, visual perception, and human–computer interaction. Currently, as an Assistant Professor, she leads research projects that integrate eye-tracking, fNIRS data analysis, and computational approaches to study visual communication and decision-making processes. She has actively participated in organizing workshops, mentoring students, and supervising graduate research projects, thereby contributing to the growth of the next generation of scholars in the field.

Research Interest

Assist. Prof. Dr. Luwen Yu’s research interests focus on color science, cognitive psychology, and user interaction in digital environments. She explores how color and visual attributes affect human perception, attention, and decision-making, applying her findings to areas such as consumer behavior, interactive media, and immersive technologies. Her studies employ a range of advanced techniques, including multimodal data analytics, virtual reality simulations, and behavioral experiments, to uncover meaningful patterns in visual cognition. She is also deeply interested in bridging design research with computational modeling, enhancing the usability and emotional impact of interactive systems and media interfaces.

Award

Assist. Prof. Dr. Luwen Yu has been recognized for her significant contributions to color science and computational media research through her selection for various academic honors, grants, and invited talks at international conferences. Her collaborative projects with global research teams demonstrate her dedication to advancing knowledge across borders, and her efforts in mentoring students and promoting diversity in science have further distinguished her as a leader in her field.

Selected Publication

Some of her notable publications include How Background Colour Shapes Digital Text-Information Processing: A fNIRS-Eye-Tracking Study (2025, 12 Citations).

Tailored Information Display: Effects of Background Colour and Line Spacing on Visual Search Across Different Character Types (2025, 9 Citations).

Decoding Color Perception: An Eye-Tracking Perspective (2025, 8 Citations), and Colour Associations and Consumer Product-Colour Purchase Decisions (2021, 45 Citations).

Conclusion

Assist. Prof. Dr. Luwen Yu stands out as an innovative and dedicated scholar whose work bridges design, cognitive science, and computational media. Her interdisciplinary approach has advanced the understanding of how visual stimuli impact human cognition and decision-making, leading to practical applications in user interface design, marketing strategies, and immersive learning environments. Through her strong research portfolio, active international collaborations, and commitment to mentoring young researchers, she has made a lasting contribution to her field. Her future research aims to expand into large-scale collaborative studies, develop novel computational tools for design evaluation, and continue influencing the direction of research in color science and human–computer interaction. For these reasons, she is an excellent candidate for this award, embodying both research excellence and leadership potential.

 

 

Moses Hamed | Experimental Design | Best Researcher Award

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Mr. Moses Hamed | Experimental Design | Best Researcher Award

Mr. Moses Hamed | Experimental Design | Head of Research Unit | Afe Babalola University | Nigeria

Mr. Moses Hamed is an accomplished Medical Laboratory Scientist and dedicated researcher specializing in histopathology and cytology. With a0 strong background in medical diagnostics and translational research, he has consistently contributed to advancing the understanding of male infertility, reproductive toxicology, and the molecular mechanisms of disease. His career reflects a commitment to improving global health outcomes through evidence-based research, collaborative studies, and mentorship of young scientists. Currently serving as the Head of the Research Unit at The Brainwill Laboratory Ltd., Mr. Hamed leads innovative projects that bridge basic science with clinical applications. His scholarly work has earned him recognition as one of the most productive medical researchers in Nigeria, positioning him as a thought leader and innovator in his field.

Professional Profile 

Education

Mr. Moses Hamed has completed extensive academic training, holding a Master of Science degree in Medical Laboratory Science with a focus on histopathology and cytology, as well as a Postgraduate Diploma in Medical Laboratory Science. His academic journey has been characterized by excellence, curiosity, and a commitment to expanding his scientific expertise. He also earned a Bachelor of Medical Laboratory Science, which laid the foundation for his professional practice and early research interests. His educational progression reflects not only intellectual rigor but also a deep passion for improving clinical diagnostics and advancing laboratory medicine as a cornerstone of healthcare.

Experience

Throughout his career, Mr. Moses Hamed has demonstrated leadership and innovation in both clinical and research settings. As the Head of Research at The Brainwill Laboratory Ltd., he oversees experimental design, data analysis, and collaborative projects that focus on reproductive health and endocrine disorders. He previously served as a Medical Laboratory Scientist at reputable diagnostic centers and hospitals, where he gained hands-on expertise in laboratory techniques, quality assurance, and patient-focused diagnostics. His work has contributed to improving laboratory standards and advancing molecular approaches to diagnosis, with a particular emphasis on infertility and toxicology research.

Research Interest

Mr. Moses Hamed’s research interests are deeply rooted in reproductive health, toxicology, and endocrine disruption. His studies have explored the effects of pesticides, psychoactive substances, and environmental toxins on male fertility parameters, providing valuable insights into public health risks and preventive strategies. He is also engaged in work addressing the pathophysiology of infertility and the development of innovative diagnostic protocols. His interest in translational research enables him to bridge the gap between laboratory discoveries and clinical applications, making his work highly impactful for patient care and policy development.

Award

Mr. Moses Hamed has been recognized with several honors, including a prestigious Founder’s Award for academic and professional excellence. He was also acknowledged by Elsevier as one of the Top 500 authors by scholarly output in Nigeria, a testament to his consistent research productivity and contribution to the scientific community. These awards highlight his dedication to advancing knowledge, mentoring future scientists, and shaping the future of medical laboratory science through innovative and impactful work.

Selected Publication

Neglected Tropical Diseases and Female Infertility: Possible Pathophysiological Mechanisms (2025, 42 citations).

Impact of Organophosphate Pesticides Exposure on Human Semen Parameters and Testosterone: A Systematic Review and Meta-Analysis (2023, 55 citations).

Psychoactive Drugs and Male Fertility: Impacts and Mechanisms (2023, 37 citations).

Pathophysiology and Management of Testicular Ischemia/Reperfusion Injury: Lessons from Animal Models (2024, 28 citations).

Conclusion

Mr. Moses Hamed stands out as a dedicated researcher and healthcare professional whose contributions to medical laboratory science have significantly advanced reproductive health research and diagnostic innovation. His educational background, leadership experience, and robust publication record make him an exemplary candidate for recognition. His work not only strengthens the scientific community but also provides tangible benefits to society by addressing pressing health challenges. With his proven capacity for impactful research, mentorship, and collaboration, Mr. Hamed is well-positioned to continue shaping the future of laboratory medicine and to expand his influence through international partnerships and innovative scientific endeavors.

 

Guangfen Du | Experimental Design | Best Researcher Award

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Guangfen Du | Experimental Design | Best Researcher Award

Prof. Dr Guangfen Du, Shihezi University, China

Prof. Dr. Guangfen Du is a distinguished chemist specializing in materials chemistry and Raman spectroscopy. She earned her Ph.D. in Applied Chemistry from Tianjin University (2015) and holds degrees in Materials Chemistry (M.S., 2005) and Chemistry (B.S., 2002). Currently, a Full Professor at Shihezi University, she has held academic roles since 2005. Her innovative research includes synthetic methodologies and SuFEx click reactions, with publications in leading journals. Honored with awards like Distinguished Young Teacher (2016), her work has advanced chemical science and education. 🎓

Publication Profile

Scopus

Education

Prof. Dr. Guangfen Du holds a Ph.D. in Applied Chemistry from Tianjin University (2012–2015) 🎓🔬. She earned an M.S. in Materials Chemistry and Physics from the University of Science and Technology of China (2002–2005) ⚛️🧪 and a B.S. in Chemistry from Qufu Normal University (1998–2002) 🧑‍🔬📘. Her academic journey showcases a solid foundation and expertise in chemistry and materials science 🌟📚. With her diverse educational background, Prof. Du contributes significantly to advancing research and innovation in her field, blending theoretical knowledge and practical applications to tackle modern scientific challenges 🌍🔎.

Experience

Prof. Dr. Guangfen Du is a distinguished academic specializing in Material Science at the School of Chemistry and Chemical Engineering, Shihezi University. Since December 2019, she has served as a Full Professor, advancing research and education in her field. She was an Associate Professor from February 2015 to November 2019 and began her journey at Shihezi University as a Lecturer in September 2008. Before this, she contributed to Linyi University as a Lecturer from August 2005 to September 2008. Her career reflects dedication to academia, shaping future scientists and driving innovation in material science. 🧪📚🌟

Awards and Honors

Recognized for outstanding contributions, this individual received the Distinguished Young Teacher Award from Shihezi University in 2016 🏆🎓. Their dedication to innovation and research was further acknowledged in 2015 with the Second Prize for Scientific and Technological Progress from Xinjiang Bingtuan, Xinjiang Uygur Autonomous Region 🔬🥈. Earlier, in 2013, they were honored with the Third Prize for Scientific and Technological Progress by the same organization 🥉🔍. These accolades reflect their exceptional achievements in education and scientific advancement, highlighting their commitment to fostering knowledge and driving progress in their field 🌟📘.

Research Focus

Prof. Dr. Guangfen Du specializes in organic chemistry, with a focus on catalytic reactions and green synthesis. 🌿⚗️ Her research highlights include base-catalyzed stereoselective transformations, SuFEx (sulfur-fluoride exchange) click chemistry, and N-heterocyclic carbene catalysis. 🔬✨ She has contributed to innovative methods for synthesizing vinyl sulfones, benzoxathiins, and pentafluorophenyl sulfides, emphasizing efficiency and sustainability. 📘🧪 Her work integrates advanced techniques to assemble complex molecules, paving the way for new materials and bioactive compounds. 🧠🌍 Prof. Du’s research advances understanding in organofluorine chemistry and functionalized sulfur compounds, with applications in pharmaceuticals and materials science. 💊🔍

Publication Top Notes

Brønsted base-catalyzed assembly of sulfochromeno[4,3-b]pyrrolidines via tandem [3 + 2] cycloaddition-SuFEx click reaction of ethenesulfonyl fluorides and o-hydroxyaryl azomethines

N-Heterocyclic Carbene-Catalyzed Synthesis of Pentafluorophenyl Sulfides | 氮杂环卡宾催化的五氟苯基硫醚的合成

Synthesis of Vinyl Sulfones and Benzoxathiins via Base-Catalyzed Reactions of o-Hydroxyaryl Thiosulfonates and Ynones

SuFEx Reactions of Sulfonyl Fluorides, Fluorosulfates, and Sulfamoyl Fluorides Catalyzed by N-Heterocyclic Carbenes

Base-catalyzed stereoselective thiosulfonylation of ynones for the facile synthesis of thio-functionalized vinyl sulfones

Assembly of unsymmetrical 1,3,5-triarylbenzenes via tandem reaction of β-arylethenesulfonyl fluorides and α-cyano-β-methylenones

Direct catalytic asymmetric vinylogous Michael addition to construct an all-carbon quaternary center with 3-alkenyl-oxindoles

Catalytic Asymmetric Conjugate Addition of 2-Methyl-3,5-dinitrobenzoates to Unsaturated Ketones

Construction of 6: H -benzo [c] thiochromenes via a tandem reaction of arynes with thionoesters

Conclusion

Prof. Dr. Guangfen Du is a distinguished scholar renowned for his academic achievements, pioneering research, and prestigious awards. 🌟 His groundbreaking work in materials chemistry, focusing on synthetic methodologies and catalytic processes, has significantly advanced global scientific knowledge. 🧪🌍 With a robust record of contributions to high-impact publications 📚✨ and a steadfast dedication to both research and teaching, 👨‍🔬🎓 Dr. Du exemplifies excellence in academia. His innovative approach and unwavering commitment make him an outstanding candidate for the Best Researcher Award, recognizing his exceptional impact on the scientific community and his transformative contributions to the field. 🏆🌟

 

 

 

Marwa Ibrahim | Experimental Design | Women Researcher Award

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Marwa Ibrahim | Experimental Design | Women Researcher Award

Assoc Prof Dr Marwa Ibrahim, National research centre NRC, Egypt

Dr. Marwa Ibrahim is an accomplished academic and researcher in Mechanical Power Engineering with a Ph.D. from Cairo University. Her expertise includes renewable energy and smart grids, with notable work on micro-grid systems and wind turbine optimization. She is an Assistant Professor at the National Research Centre, Egypt, and has held various roles, including quality assurance and mechanical engineering positions. Dr. Ibrahim is certified in project planning, safety, and quality management. Her projects include biodiesel production and hybrid renewable energy systems. She has participated in numerous international conferences and workshops on renewable energy. 🌍🔋🌞

Publication profile

Scopus

Education

Dr.Marwa Ibrahim, earned a PhD in Mechanical Power Engineering from Cairo University in January 2018, with a focus on “Design and Performance Evaluation of Renewable Energy Based Micro-Grid Systems with Energy Storage” 🌍🔋. He holds an M.Sc. in Industrial Engineering from Fayoum University (2014), specializing in “Optimization of Small-Scale Wind Turbine Systems Considering Externalities” 🌬️⚙️, and a B.Sc. in Industrial Engineering from the same institution (2008), where his graduation project on developing an ISO\TS 16949 Quality System earned an excellent grade 🎓📈. His work centers on renewable energy and industrial optimization.

Experience

Dr. Marwa Ibrahim, is an accomplished mechanical engineer at the Mech. Eng. Department, NRC, where they have served as an Assistant Professor since 2018. Their journey began as a Researcher Assistant in 2010, evolving through roles as Assistant Researcher (2014-2017) and Mechanical Engineer (2009-2010). Before joining NRC, they honed their expertise as a Quality Assurance Engineer at ICDI Company, Egypt (2008-2009). With a robust background in research and quality assurance, Dr. Marwa Ibrahim, has made significant contributions to the field of mechanical engineering. 🛠️📊

Projects

At the National Research Centre, Egypt, He contributed to several innovative projects. As a Co-PI on the 2019-2021 project for designing and testing a continuous biodiesel production device from Egyptian Jatropha seeds, He played a key role. He was also part of the STDF project optimizing hybrid renewable systems for tourism facilities in Fayoum (2019). He involvement extended to projects like the development of a mini car running on alternative fuels (2018-2020) and hybrid energy systems for Nubariyyah (2017-2020). Additionally, He worked on designing presses for oil extraction from Jatropha (2016-2019) and exploring hydrogen fuel from solar energy (2016-2019). 🌱🔧🚗🔋🌞

Research focus

Dr. M.M. Ibrahim’s research primarily focuses on optimizing and managing renewable energy systems, particularly wind and solar energy. His work involves evaluating technical and economic aspects of these systems to enhance efficiency and sustainability. Key areas include hybrid renewable energy systems, wind off-grid applications, and comparative studies between solar and wind energy. Ibrahim also explores innovative applications such as smart energy management for solar water heating and grid-connected solar PV systems for electric vehicle charging. His studies contribute to improving renewable energy solutions, particularly in remote and urban settings. 🌬️☀️💡

Publication top notes

Energy management strategies of hybrid renewable energy systems: A review

Optimization of wind off-grid system for remote area: Egyptian application

Technical and Economic Comparison between Solar and Wind Energy Supplying Desalination System

Electricity production and comparative analysis for wind availability power potential assessment at four sites in Egypt

EXPERIMENTAL AND THEORETICAL STUDY OF SMART ENERGY MANAGEMENT SOLAR WATER HEATING SYSTEM FOR OUTDOOR SWIMMING POOL APPLICATION IN EGYPT

Investigation of a grid-connected solar pv system for the electric-vehicle charging station of an office building using pvsol software

Sustainable technical design and economic–environmental analysis of SMART solar street lighting system in Giza City, Egypt

NUMERICAL THERMAL STUDY OF HEAT TRANSFER ENHANCEMENT IN LAMINAR-TURBULENT TRANSITION FLOW THROUGH ABSORBER PIPE OF PARABOLIC SOLAR TROUGH COLLECTOR SYSTEM

Feasibility and performance analysis of grid-tied solar photovoltaic systems using pvsyst simulation package of pharmaceutical factory case study in Egypt