Wenxuan Xu | Optical Fiber Communication | Best Researcher Award

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Mr. Wenxuan Xu | Optical Fiber Communication | Best Researcher Award

Student, Beijing Jiaotong University, China

Wenxuan Xu is a PhD candidate in engineering at Beijing Jiaotong University, specializing in optical fiber communication. He has a master’s degree in the same field and has published extensively in high-impact journals. His research focuses on few-mode erbium-doped fiber amplifiers (FM-EDFA) for long-distance communication, mode power management, and signal quality improvement. His work has been widely recognized, with multiple publications in journals such as Optics Express and J. Opt. Soc. Am. B. He has also been involved in numerous research projects funded by the National Natural Science Foundation of China. Wenxuan’s innovative approach to addressing the challenges of fiber optic communication has made a significant contribution to the field.

Profile

Scopus

Education

Wenxuan Xu completed his undergraduate studies and earned a master’s degree in engineering from Beijing Jiaotong University. Currently pursuing his PhD in optical fiber communication at the same institution, he is focused on researching key technologies for long-distance transmission, including few-mode fiber amplifiers and mode management. Throughout his academic journey, Wenxuan has gained in-depth knowledge in fiber optics, contributing to various groundbreaking research initiatives in the field. His academic background is complemented by his ongoing commitment to advancing fiber optic communication, particularly addressing amplifier issues for long-distance transmission and the development of new theoretical frameworks. He has demonstrated strong technical and research skills, underpinned by a deep understanding of the challenges and innovations in optical fiber communication.

Experience

Wenxuan Xu has participated in over 10 research projects, collaborating with experts in optical fiber communication to address critical challenges in long-distance transmission. His experience spans theoretical research, experimental verification, and the design of new technologies aimed at enhancing communication systems. His primary research focus has been on few-mode erbium-doped fiber amplifiers (FM-EDFA), investigating their role in balancing channel power in multi-mode fibers, improving amplifier tolerance, and optimizing signal quality. In addition to academic work, Wenxuan has been involved in industry-sponsored projects funded by the National Natural Science Foundation of China, gaining valuable practical experience. He has co-authored numerous research papers, with a significant portion of his work published in high-impact journals. His contributions have helped drive advancements in fiber optic technologies, with particular emphasis on improving amplifier performance and signal transmission quality.

Research Focus

Wenxuan Xu’s research is centered on optical fiber communication, specifically focusing on improving long-distance transmission using few-mode erbium-doped fiber amplifiers (FM-EDFA). His work involves the study of key challenges, such as balancing channel power across different modes, addressing modal loss differences, and improving amplifier performance. A major area of his research is mode decomposition, mode recognition, and power equalization for fiber amplifiers, particularly in the context of hybrid pumped FM-EDFA. Wenxuan has also contributed to the development of innovative methods to overcome the challenges of mode mixing, enhance signal quality, and improve the efficiency of optical systems. His research has led to the creation of theoretical frameworks, which are verified through experimental approaches. By advancing these technologies, Wenxuan aims to improve the reliability and performance of fiber optic communication systems, making them more efficient for long-distance and high-capacity applications.

Publication Top Notes

  1. Gain equalization of few-mode fiber amplifier based on particle swarm optimization (Proc. SPIE, 2022) 🖥️📊
  2. Long-distance modal power equalization with hybrid pumped FM-EDFA (J. Opt. Soc. Am. B, 2023) 🌐💡
  3. A Multi-Layer Erbium-Doped Air-Hole-Assisted Few-Mode Fiber with Ultra-Low Differential Modal Gain (Photonics, 2022) 📡🔬
  4. High-performance mode decomposition using physics- and data-driven deep learning (Optics Express, 2022) 🤖🔍
  5. Accurate mode decomposition with the combination of the matrix analytic and the SPGD algorithm (J. Opt. Soc. Am. B, 2022) 🔧💻
  6. Effect of gain saturation on mode capacity of EDFA (Optical Fiber Technology, 2022) ⚡📈

 

 

Daniela Fico | materiali | Best Researcher Award

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Dr. Daniela Fico | materiali | Best Researcher Award

Collaboratore, CNR-ISPC, Italy.

Daniela Fico is a renowned researcher at the National Research Council—Institute of Heritage Science (CNR-ISPC), Lecce, Italy, specializing in the preservation of cultural heritage. With a PhD in Analytical Chemistry from the University of Salento (2015), her work integrates advanced technologies in the study of materials and heritage preservation. She is recognized for her innovative research in green protective materials for stone and cultural heritage, sustainable polymer composites, and biocomposite materials. Fico has contributed to several national and international projects, published extensively, and served as a reviewer and guest editor for international journals.

Profile

Google scholar 

Education

Daniela Fico obtained her PhD in Analytical Chemistry in 2015 from the Department of Cultural Heritage at the University of Salento, Lecce, Italy. Her doctoral research focused on the analysis and preservation of cultural heritage materials, combining spectroscopic and chromatographic techniques. Fico has also undertaken advanced studies in sustainability, 3D printing technologies, and material characterization, further expanding her expertise in multidisciplinary research approaches, particularly with applications in cultural heritage conservation.

Experience

Fico’s career spans over a decade of research in various fields, from analytical chemistry to sustainability in material sciences. She has worked at the University of Salento’s Department of Cultural Heritage (2015–2020), contributing to the chemical and morphological characterization of materials and developing innovative analytical protocols. From 2021 to 2022, she worked at the Department of Engineering for Innovation, focusing on sustainable materials and circular economy. Currently, Fico is employed at CNR-ISPC, where she conducts diagnostic analyses and studies for the preservation of cultural heritage, using high-resolution mass spectrometry and advanced imaging techniques.

Awards and Honors

Daniela Fico has received numerous accolades for her groundbreaking contributions to the fields of analytical chemistry and heritage conservation. She is the recipient of various research grants and has been invited to collaborate on national and international projects. As an author of highly cited papers in prestigious journals, Fico’s work has earned her recognition within the scientific community. She also serves as a reviewer and guest editor for several international journals, demonstrating her leadership and influence in her field.

Research Focus

Fico’s research focuses on the intersection of sustainability, heritage preservation, and material science. She specializes in the development of innovative non-toxic protective materials for stone and other cultural heritage artifacts. Her work also explores the use of recycled polymers, biocomposites, and 3D printing in material manufacturing, aiming to reduce environmental impact. Additionally, she employs advanced analytical techniques like ATR-FTIR, LC-MS, and high-resolution mass spectrometry to study materials’ composition, provenance, and preservation methods in cultural heritage.

Publications

  • “A review of polymer-based materials for fused filament fabrication (FFF): focus on sustainability and recycled materials” 📄
  • “A rapid and simple method for the determination of 3, 4-dihydroxyphenylacetic acid, norepinephrine, dopamine, and serotonin in mouse brain homogenate by HPLC with fluorimetric detection” 🧠
  • “Development and characterization of sustainable PLA/Olive wood waste composites for rehabilitation applications using Fused Filament Fabrication (FFF)” ♻️
  • “The molecular composition of Sicilian amber” 🍯
  • “A multianalytical study of archaeological faience from the Vesuvian area as a valid tool to investigate provenance and technological features” 🏺
  • “Pirin: A novel redox-sensitive modulator of primary and secondary metabolism in Streptomyces” 🧪
  • “An overview on wood waste valorization as biopolymers and biocomposites: definition, classification, production, properties and applications” 🌳
  • “Sustainable polymer composites manufacturing through 3D printing technologies by using recycled polymer and filler” 🖨️
  • “The study of the mural painting in the 12th century monastery of Santa Maria delle Cerrate (Puglia-Italy): characterization of materials and techniques used” 🎨
  • “Decanoic acid and not octanoic acid stimulates fatty acid synthesis in U87MG glioblastoma cells: a metabolomics study” 🔬

 

 

 

ILYACE KORODOWOU | Materials Sciences | Best Researcher Award

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Dr. ILYACE KORODOWOU | Materials Sciences | Best Researcher Award

PhD, Faculty of Sciences and Techniques of Tangier (FSTT), Morocco

Ilyace Korodowou is a Togolese PhD candidate in Materials Science and Engineering at the Faculty of Sciences and Techniques of Tangier, Morocco. With a background in Mathematics and Natural Sciences, Ilyace graduated with honors from Eyadema Military College in 2016. After completing studies in Biology, Chemistry, and Geology, he pursued a Bachelor’s and Master’s degree in Materials Science, focusing on materials recycling, biopolymer characterization, and sustainable technologies. His research interests include nonwoven processes, plastics, and environmental applications. Ilyace has gained valuable experience in academic research, as well as professional roles in scientific projects and laboratory environments. Outside of his studies, he enjoys reading, football, jogging, and watching crime series. His interdisciplinary approach and passion for impactful research make him a promising figure in the field of materials science.

Profile

Education

Ilyace Korodowou has pursued a diverse and rigorous educational journey in the field of Materials Science and Engineering. His academic path began at Eyadema Military College in Togo, where he completed his high school education in Mathematics and Natural Sciences in 2016. Afterward, he pursued studies in Biology, Chemistry, and Geology (DEUST), followed by a Bachelor’s degree in Chemical Analysis Techniques at Abdelmalek Essaâdi University in Tangier, Morocco. He furthered his education by obtaining a Master’s degree in Materials Engineering for Plastics and Metallurgy (GMPM), deepening his expertise in physics, chemistry, and mechanical engineering. Currently, he is a PhD candidate specializing in Materials Sciences and Engineering, focusing on the recycling, valorization, and characterization of biopolymers, as well as sustainable nonwoven processes. His research is grounded in scientific curiosity, innovation, and a commitment to environmental sustainability.

Experience

Ilyace Korodowou has developed extensive experience in materials science and research, gaining hands-on exposure in various labs and research projects. He is currently a PhD candidate at Abdelmalek Essaâdi University, where his research focuses on sustainable materials, particularly nonwoven technologies, plastics recycling, and biopolymer characterization. Ilyace also worked as a research assistant at the Technical Center of Plastics and Rubber in Casablanca, Morocco, from 2021 to 2023, gaining practical insights into plastic and rubber material processing. He has participated in a number of internships, including work at the Physico-Chemistry Laboratory of Natural Materials and the LAMSE Laboratory. His past roles also include laboratory assistance, where he supervised practical sessions for undergraduates and provided guidance on research methodologies. Additionally, Ilyace has contributed to several scientific conferences and is actively involved in mentoring students for their final-year projects, showcasing his commitment to advancing knowledge and fostering new talent in materials science.

Awards and Honors

Ilyace Korodowou has earned various academic and professional accolades in his field. Notably, he received the first prize at the third edition of the CESTOM-INNOVE project competition in 2022, awarded for his innovative ecoVALFI project, focusing on sustainable materials. His academic journey has been marked by several prestigious certifications, including a badge of achievement in “Optimization of Processes and Advanced Processes of Thermoplastics and Composites” from Institut Mines-Télécom in Paris (2024), and a series of research-focused certificates from Clarivate, University of Liège, and Paris-Saclay University. Ilyace has also excelled in numerous online learning platforms, including earning badges in Biomass and Green Chemistry, Nanoscience, and Advanced Chemistry. His ongoing academic success underscores his commitment to advancing in materials science and engineering, particularly in sustainable development and environmental preservation.

Research Focus

Ilyace Korodowou’s research focuses on the sustainable recycling and valorization of materials, particularly in the fields of biopolymers, nonwoven technologies, and plastic materials processing. His work explores environmentally friendly alternatives to traditional materials, such as the use of sisal fibers and recycled materials in industrial applications. Ilyace is dedicated to characterizing and functionalizing biopolymers, with a focus on improving their properties for various applications in sustainability. He is also exploring innovative nonwoven processes, specifically in the context of filtration membranes and absorbent materials, that can help reduce the environmental impact of plastic waste. Additionally, his research includes the design and optimization of materials for specific applications, including the development of composite materials and the study of life cycle assessments (LCA) for environmental impact evaluation. Ilyace’s interdisciplinary approach combines materials science, engineering, and environmental science to create a more sustainable future through innovative material design and processing.

Publication Top Notes

  • Evaluating sisal fibers as an eco-friendly and cost-efficient alternative to cotton for the Moroccan absorbent hygiene and textile industries 🌱 (Industrial Crops and Products, 2024)
  • Industrial ecology in Morocco: wet laying composite air filter membrane based on cottonized sisal fibers and recycled nonwoven supermarket bag 🌿 (Biomass Conversion and Biorefinery, 2024)
  • Stabilization of Argan Oil Nanoemulsions Using Chitosan Extracted from Pink Shrimp Shells 🐚 (Applied Science, 2025)
  • Cottonized sisal fibers: a more economic and sustainable alternative to natural cotton, – for absorbent textile and hygienic products, in Morocco 🌱 (2024)
  • Industrial Ecology in Morocco: Wet Laying Composite Filter Membrane Based on Cottonized Sisal Fibers and Recycled Non-Woven Supermarket Bag 🧵 (2023)
  • Composite membrane based on cellulose fibers and recycled polypropylene: a more economic and sustainable alternative for the filtration of particles in the air 🌍 (8th International Symposium on Sediment Management, 2024)

 

 

Thai Ha Dang | Computers and Electronics in Agriculture | Best Researcher Award

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Mr. Thai Ha Dang | Computers and Electronics in Agriculture | Best Researcher Award

Researcher, University of North Texas, United States

Thai Ha Dang is a passionate graduate student currently pursuing his Ph.D. in Electrical Engineering at the University of North Texas. With over 2 years of experience in wearable embedded devices and wireless sensing systems, he specializes in RF energy harvesting and machine learning for signal processing. His research spans human and animal models, and he has worked on projects related to cow behavior classification, energy harvesting systems, and underwater monitoring. Thai’s commitment to research has led him to present at various international conferences and publish in high-impact journals. He has honed his skills in embedded system design, programming, and data analysis, making him a key player in the field of agricultural technology and sensor networks. His strong academic background and innovative contributions have made him a respected researcher among peers and mentors alike.

Profile

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Education

Thai Ha Dang’s educational journey began at Hanoi University of Science and Technology, Vietnam, where he earned his Degree of Engineer in Electrical Engineering, ranking in the top 15% of his class. He further advanced his studies by pursuing a Master’s degree in Electrical Computer Engineering at Pukyong National University in South Korea, where he graduated with a GPA of 4.12/4.5. This rigorous academic background provided a strong foundation in embedded systems, machine learning, and wireless sensor networks. Currently, he is enrolled in the Ph.D. program in Electrical Engineering at the University of North Texas, where his research focuses on wearable embedded devices and RF energy harvesting. His dedication to academia is reflected in his continued pursuit of knowledge and excellence in his research endeavors, particularly in the application of machine learning techniques for signal processing in embedded systems.

Experience

Thai Ha Dang has built a solid foundation in research and industry through diverse experiences. As a Research Assistant in the Embedded Sensing & Processing Systems (ESPS) Lab at the University of North Texas, he is currently working on developing an underwater monitoring system, combining his interests in wireless sensing and energy harvesting. Before this, he contributed to a wide array of projects at the AIOT Lab, Pukyong National University, where he designed a multi-channel embedded device for monitoring cow behavior. This involved system design, firmware development, and experimentation. He also gained hands-on experience during his tenure as an engineer in Samsung Display Vietnam’s AI group, where he worked on training neural networks for computer vision tasks related to defect detection. His strong technical skills, combined with a practical understanding of industry needs, make him well-equipped to tackle complex research challenges in embedded systems and machine learning applications.

Awards and Honors

Thai Ha Dang has been recognized for his contributions to the research community through several prestigious awards. Notably, he received the Best Paper Award at the Korea Institute of Convergence Signal Processing (KICSP) in December 2021 for his work on deep learning approaches for food quality assessment using hyperspectral sensors. Additionally, he was honored with the Brain Korea 21 Scholarship for the years 2021-2023, further validating his potential as a leader in his field. Thai’s academic excellence has been supported by research assistantships at both Pukyong National University and the University of California Irvine. These honors reflect his continuous pursuit of knowledge and the impact his work has had on advancing technology in agriculture and embedded systems. His recognition through these awards underscores his talent, dedication, and potential to drive innovation in his research.

Research Focus

Thai Ha Dang’s research primarily focuses on developing and applying wearable embedded systems for low-powered monitoring and energy harvesting, with a strong emphasis on machine learning techniques. His work includes creating self-powered systems, such as his wireless sensor network for monitoring cow behavior, which uses 915 MHz radio frequency energy harvesting. Another key area of his research is food quality monitoring, where he explores battery-free systems powered by RF energy harvesting to detect freshness in food products. Additionally, Thai has delved into underwater monitoring and aquaculture, with applications for shrimp larvae counting using multi-scale feature networks. His multidisciplinary research blends electrical engineering, machine learning, and sensor technology to address real-world challenges in agriculture, food safety, and environmental monitoring. Thai is particularly interested in developing sustainable and efficient systems that are capable of operating in challenging and remote environments, offering a glimpse into the future of intelligent, energy-efficient devices.

Publication Top Notes

  • “Self-Powered Cattle Behavior Monitoring System Using 915 MHz Radio Frequency Energy Harvesting,” IEEE Access, 2024.
  • “VAE-LSTM Data Augmentation for Cattle Behavior Classification Using a Wearable Inertial Sensor,” IEEE Sensor Letters, 2024.
  • “Radio-Frequency Energy Harvesting-based Self-Powered Dairy Cow Behavior Classification System,” IEEE Sensors Journal, 2023.
  • “A LoRaWAN-Based Smart Sensor Tag for Cow Behavior Monitoring,” IEEE Sensors Conference, 2022.
  • “B2EH: Batteryless BLE Sensor Network Using RF Energy Harvesting,” IEEE Applied Sensing Conference, 2023.
  • “Shrimp Larvae Counting in Dense Environments Using Size-Adaptive Density Map Estimation and Multi-scale Feature Network,” IEEE Transactions on Agrifood Electronics (accepted).

 

 

Mohammed Hefni | Mass Spectrometry | Best Researcher Award

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Assoc. Prof. Dr. Mohammed Hefni | Mass Spectrometry | Best Researcher Award

Linnaeus University, Sweden

Dr. Mohammed Hefni is a Senior Researcher at Linnaeus University, Sweden, with a passion for sustainable, nutritious food development and health-impact clinical trials. His research spans chromatographic analysis, food science, and health, focusing on the intersection of nutrition and food processing. In addition to his research work, Dr. Hefni teaches nutrition, food chemistry, and analytical chemistry courses, helping shape the future of young scientists. His broad academic background and extensive research across Sweden, Egypt, and other global research centers, such as Uppsala and New Zealand, have allowed him to contribute significantly to advancing knowledge in food science and health outcomes.

Profile

Google scholar

Education 🎓

Dr. Hefni obtained his PhD in Food Science, co-supervised by the Swedish University of Agricultural Sciences and Mansoura University, focusing on folate in Egyptian foods and how food processing and bio-processing impact its levels. Prior to that, he earned an MSc and a BSc in Food Science from Mansoura University, where he conducted research on children’s nutrition. His education in food science, backed by strong international experience, has made him a leader in his field, continually pushing boundaries in nutrition and food research.

Experience 💼

Dr. Hefni has extensive academic experience, transitioning from Assistant Lecturer to Associate Professor at Mansoura University, Egypt, and later joining Linnaeus University as a Senior Researcher in 2016. His career spans teaching, research, and international collaborations. He has worked on cutting-edge food science projects as a postdoctoral researcher in Sweden, New Zealand, and Poland. His expertise in chromatographic techniques, bioactive peptides, and food processing has made him a key figure in both food science education and research. Additionally, his contributions in research and teaching have fostered the development of new methodologies and innovations in nutrition and food chemistry.

Awards and Honors 🏅

Dr. Hefni’s remarkable career has been recognized through numerous awards. These include the University Research Award at Mansoura University (2010, 2012), the University Incentive Award (2015), and several international scholarships. His contributions to food science research have been bolstered by training grants and fellowship awards from renowned institutions in Poland, New Zealand, and the UK. His award-winning research highlights his expertise in areas like bioactive peptides, folate profiling, and sustainable food development. These accolades underscore his ongoing commitment to advancing scientific knowledge in nutrition and food chemistry.

Research Focus 🔬

Dr. Hefni’s research focuses on sustainable food development, particularly nutrition and food chemistry, and their connection to health outcomes. He works extensively with chromatographic analysis and clinical trials to assess the health impacts of foods, especially legumes and plant-based diets. His recent work explores improving folate content in Egyptian foods and investigating bioactive compounds such as peptides. His research is essential for developing food products that contribute to better health and sustainability, emphasizing the potential of food processing and bio-processing methods to enhance nutrition.

Publication Top Notes📚

  • Less meat, more legumes: prospects and challenges in the transition toward sustainable diets in Sweden (2020)
  • High-moisture meat analogues produced from yellow pea and faba bean protein isolates/concentrate (2021)
  • Folate content in foods commonly consumed in Egypt (2010)
  • Folate content in processed legume foods commonly consumed in Egypt (2014)
  • Increasing the folate content in Egyptian baladi bread using germinated wheat flour (2011)
  • Folate content in faba beans (Vicia faba L.)—effects of cultivar, maturity stage, industrial processing, and bioprocessing (2015)
  • The application of pulse flours in the development of plant-based cheese analogues (2021)
  • Characterization of flavonoid compounds in common Swedish berry species (2020)
  • Effect of germination and subsequent oven-drying on folate content in different wheat and rye cultivars (2012)
  • Flours from Swedish pulses: Effects of treatment on functional properties and nutrient content (2019)
  • A HPLC-UV method for the quantification of phenolic acids in cereals (2019)
  • Bread making with sourdough and intact cereal and legume grains–effect on glycaemic index and glycaemic load (2021)
  • Betaine, choline and folate content in different cereal genotypes (2018)
  • A simple HPLC method with fluorescence detection for choline quantification in foods (2015)

 

 

Wijdan Al-Ahmadi | Biomedicine | Best Researcher Award

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Dr. Wijdan Al-Ahmadi | Biomedicine | Best Researcher Award

Associate scientest, King Faisal specialist hospital and research center, Saudi Arabia

Dr. Wijdan Al-Ahmadi is a seasoned researcher with over 20 years of experience in biomedicine, focusing on cancer biology, immunology, and disease mechanisms. Based in Riyadh, Saudi Arabia, she is a key member of the Molecular Biomedicine Research Department at King Faisal Specialist Hospital and Research Center. Her work spans diverse fields, including inflammatory diseases and cardiovascular research. Notably, in 2023, she contributed to a groundbreaking experiment aboard the International Space Station (ISS), highlighting her ability to conduct research in extreme environments. Dr. Al-Ahmadi has demonstrated leadership through her work as an educator, mentoring students at various academic levels. Her contributions continue to push the boundaries of biomedicine, paving the way for new therapeutic strategies and personalized medicine approaches.

Profile

Education

Dr. Wijdan Al-Ahmadi holds a Ph.D. in Bioscience from Cardiff University (2015–2019), where she focused on cancer and immunology research. She also earned a B.Sc. in Biochemistry from King Saud University (1994–1998). Her academic journey has equipped her with advanced expertise in molecular biology, cancer research, and biomedical sciences. Dr. Al-Ahmadi’s educational foundation is complemented by her extensive hands-on experience in laboratory settings, which has enabled her to contribute to numerous pioneering studies. Through her formal education and continuous professional development, she has maintained a passion for unraveling disease mechanisms and enhancing health outcomes through scientific innovation.

Experience

Dr. Al-Ahmadi’s career spans over two decades in the field of biomedicine. She currently serves as an Associate Scientist at King Faisal Specialist Hospital and Research Center in Riyadh, where she leads advanced research projects in cancer biology and immunology. Prior to this, she was a Post-doctoral Fellow (2020–2023), focusing on cancer and inflammatory disease mechanisms. Dr. Al-Ahmadi’s experience includes roles as a Research Assistant (2007–2015) and a Research Technician (2002–2006), where she was deeply involved in cancer research and molecular biology assays. She has also mentored Ph.D., master’s, and undergraduate students throughout her career. Her research has had significant impact both in clinical settings and in experimental fields, including innovative studies aboard the ISS in 2023, demonstrating her versatility in different research environments.

Research Focus

Dr. Wijdan Al-Ahmadi’s research is focused on understanding the underlying mechanisms of diseases, particularly cancer, inflammatory disorders, and cardiovascular diseases. She is dedicated to uncovering how specific genetic mutations and signaling pathways contribute to disease progression, aiming to identify novel therapeutic targets for better patient outcomes. Dr. Al-Ahmadi’s work in space science is also notable, having contributed to microgravity research aboard the ISS, exploring how human physiology and disease processes respond in space. Her findings not only have applications for space health but also provide critical insights that can benefit human health on Earth. She is driven by the potential of personalized medicine and therapeutic interventions that address the root causes of disease.

Publication Top Notes

  1. Pro-atherogenic actions of signal transducer and activator of transcription 1 serine 727 phosphorylation in LDL receptor deficient mice via modulation of plaque inflammation. 🧬🔬
  2. Protective effects of a unique combination of nutritionally active ingredients on risk factors and gene expression associated with atherosclerosis in C57BL/6J mice fed a high-fat diet. 🥗🧪
  3. Posttranscriptional control of the chemokine receptor CXCR4 expression in cancer cells. 🧑‍🔬🦠
  4. miR-29a inhibition normalizes HuR over-expression and aberrant AU-rich mRNA stability in invasive cancer. 🧬💡
  5. The RNA-binding zinc-finger protein tristetraprolin regulates AU-rich mRNAs involved in breast cancer-related processes. 🔬💥
  6. Alternative polyadenylation variants of the RNA binding protein, HuR: abundance, role of AU-rich elements and auto-Regulation. 🧬📊
  7. Cloning-free regulated monitoring of reporter and gene expression. 🧬🧑‍🔬
  8. RNase L downmodulation of the RNA-binding protein, HuR, and cellular growth. 🔬🧑‍🔬
  9. Bioinformatics and experimental derivation of an efficient hybrid 3′ untranslated region and use in expression active linear DNA with minimum poly(A) region. 💻🧬
  10. Expedient liquid chromatographic method with fluorescence detection for montelukast sodium in micro-samples of plasma. 🧪💉

 

 

 

Samaneh Abdi Qezeljeh | Energy and Sustainability | Best Researcher Award

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Ms. Samaneh Abdi Qezeljeh | Energy and Sustainability | Best Researcher Award

PhD Researcher, Technische Universität Darmstadt, FG SLA, Germany

Samaneh Abdi Qezeljeh is a passionate researcher in the field of mechanical engineering, currently pursuing her Ph.D. at the Technical University of Darmstadt. With a solid academic background and a CGPA of 17.51/20 in her Master’s studies, she has made notable contributions to fluid mechanics, heat transfer, and energy conservation. Samaneh’s research interests encompass fluid-structure interaction (FSI), computational fluid dynamics (CFD), turbulence, bio-mechanics, and numerical simulations. Throughout her academic career, she has earned recognition for her excellent performance, ranking 5th in her Master’s cohort and 3rd in her Bachelor’s program. Her work has been published in high-impact journals such as Energies and the International Journal of Multiphase Flow. Samaneh is also highly skilled in various engineering software, including Comsol Multiphysics, Ansys-Fluent, and SolidWorks. Alongside her research, she has tutored undergraduate and graduate students at the University of Tabriz.

Profile

Education

Samaneh Abdi Qezeljeh obtained her Bachelor’s degree in Mechanical Engineering from Seraj Higher Education Institute, Tabriz, Iran, where she ranked 3rd in her class. She excelled academically with a CGPA of 17.63/20 (excluding thesis) and earned a thesis grade of 19.75/20. Her thesis focused on Incompressible Flow Simulation in a Backward-Facing Step with an Elastic Wall, highlighting her expertise in computational fluid dynamics (CFD). Samaneh continued her academic journey by pursuing a Master of Science (M.Sc.) in Mechanical Engineering with a focus on Energy Conservation at the University of Tabriz, where she achieved a CGPA of 17.51/20. Her Master’s thesis, titled “Investigation of Different Fluids on the Performance of Organic Rankine Cycle with and Without Preheater,” reflects her research interests in energy systems. Currently, she is enrolled in the Ph.D. program at Technical University of Darmstadt, focusing on fluid mechanics and thermal load peak treatment.

Experience

Samaneh Abdi Qezeljeh has gained valuable practical experience through her internship at I.D.E.M Co. (Iranian Diesel Engine Manufacturing Co.), where she worked in the Research and Development (R&D) department from July to August 2017. During this internship, Samaneh was involved in the design and modification of engines, particularly focusing on optimizing engine performance. This hands-on experience enhanced her understanding of real-world mechanical engineering challenges and deepened her knowledge of energy systems. In her academic career, Samaneh has contributed to the advancement of fluid mechanics and energy conservation research at the Technical University of Darmstadt. As a Ph.D. student, she is currently working on the study of thermal load peak treatment in turbulent aerosol flows. She has also tutored undergraduate and graduate students at the University of Tabriz, focusing on SolidWorks and CFD software, sharing her expertise and mentoring future engineers.

Research Focus

Samaneh Abdi Qezeljeh’s research focuses primarily on fluid mechanics, heat transfer, and energy systems, with a particular emphasis on computational fluid dynamics (CFD) and fluid-structure interaction (FSI). Her work also explores bio-mechanics, turbulence modeling, and numerical simulations to address real-world engineering problems. As a Ph.D. candidate at the Institute for Fluid Mechanics and Aerodynamics at Technical University of Darmstadt, Samaneh’s current research project, titled “Study of Thermal Load Peak Treatment in the Air Gap Utilizing Turbulent Aerosol Flows”, is investigating ways to optimize thermal performance in energy systems. Her previous work on the Organic Rankine Cycle has further solidified her interest in energy conservation techniques and sustainable energy solutions. Samaneh has also studied incompressible fluid flows in her Master’s thesis and has explored advanced fluid simulations, focusing on the interaction between fluids and structural elements.

Publication Top Notes

 

 

Anatolij Prykarpatski | supersymmetric models of quantum physics | Excellence Award (Any Scientific field)

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Prof. Dr. Anatolij Prykarpatski | supersymmetric models of quantum physics | Excellence Award (Any Scientific field)

Prof. Dr. Anatolij Prykarpatski, Lviv Polytechnic National University, Ukraine

Anatolij K. Prykarpatsky is a prominent Ukrainian mathematician and physicist, specializing in mathematical physics. He holds a Ph.D. and Habilitation degree in Mathematics and Physics. With a distinguished career as a full professor at Lviv Polytechnic National University in Ukraine, he has contributed extensively to applied mathematics, mathematical physics, and dynamical systems. Prof. Prykarpatsky has been a visiting professor at renowned institutions like the New Jersey Institute of Technology (USA), Massachusetts Institute of Technology (MIT), and Hacettepe University (Turkey). His work spans differential equations, algebraic methods, quantum mathematics, and nonlinear dynamical systems. Fluent in several languages, including English, Polish, and Russian, his contributions are recognized globally, having collaborated with researchers across Europe, the USA, and Russia. His dedication to teaching and research makes him a respected figure in the field of mathematical physics.

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Education :

Anatolij K. Prykarpatsky earned his Master’s degree in Physics from Ivan Franko Lviv State University in 1975. He later pursued a graduate program in Mathematical Physics at the Institute of Mathematics of the National Academy of Sciences of Ukraine, where he completed his Ph.D. in 1980. His dissertation focused on the integrability of ordinary Riccati and partial differential equations in mathematical physics. In 1987, he received his Habilitation degree, with a thesis on nonlinear dynamical systems of statistical and mathematical physics. His academic journey was further enriched through research at the Laboratory of Theoretical Physics at the Joint Institute for Nuclear Research in Dubna, Russia. Prof. Prykarpatsky’s advanced studies have shaped his multidisciplinary expertise in mathematics and physics, enabling him to explore complex systems and contribute significantly to scientific advancements in various fields, including quantum mathematics and dynamical systems.

Experience :

Prof. Anatolij K. Prykarpatsky has a distinguished academic career, serving as a full professor in the Department of Computational Mathematics at Lviv Polytechnic National University, Ukraine, since 1995. His international experience includes multiple visits as a professor to prestigious institutions such as the New Jersey Institute of Technology (USA), Massachusetts Institute of Technology (MIT), and Hacettepe University (Turkey). His teaching expertise covers a range of courses in mathematical physics, dynamical systems, algebra, and operator theory. He has advised numerous graduate and Ph.D. students across Europe, Ukraine, and Russia. His involvement in various international collaborations, alongside his extensive research background, has earned him a reputation as a leading figure in his field. Throughout his career, Prof. Prykarpatsky has made significant contributions to the development of mathematical theories and applied methodologies, particularly in nonlinear dynamics and quantum mathematics, establishing a solid academic legacy.

Awards and Honors :

Anatolij K. Prykarpatsky has received several prestigious awards in recognition of his groundbreaking work in mathematics and physics. In 1982, he was honored with a Diploma from the National Academy of Sciences (NAS) in Mathematical Physics, Kyiv. He received the Ostrovsky Republican Award in Science and Technology in 1984. In 2003, he was awarded the Silver Order “For the Service” by the President of the Polish Republic. Prof. Prykarpatsky’s scientific excellence was further recognized by the Western Scientific Centre of NAS of Ukraine in 2003. In 2009, he received the N. Bogolubov Award in Statistical and Mathematical Physics from NAS Ukraine. In 2019, he was awarded the prestigious State Prize in Science and Technology of Ukraine. These accolades reflect his significant contributions to the advancement of scientific knowledge, particularly in the fields of nonlinear dynamical systems, mathematical physics, and quantum mathematics.

Research Focus :

Prof. Anatolij K. Prykarpatsky’s research focuses on a wide range of topics within mathematical physics, emphasizing nonlinear dynamical systems, quantum mathematics, and differential geometric methods. His work in dynamical systems theory explores the mathematical properties and integrability of complex systems, particularly through functional-operator methods. He also investigates the role of algebraic structures in mathematical physics, with particular interest in Lie groups and algebras. His exploration of quantum mathematics in computer science has led to contributions in the areas of quantum deformations, statistical physics, and integrable Hamiltonian systems. Prof. Prykarpatsky’s research also extends into applied mathematics, including operator theory, ergodic theory, and mathematical analysis. His approach combines rigorous mathematical frameworks with practical applications, making significant strides in understanding the behavior of physical systems. His recent work has explored the supersymmetry of integrable systems, conformal Lie superalgebras, and related quantum mechanical structures.

Publications Titles with Emojis:

  1. On Superization of Nonlinear Integrable Dynamical Systems 📊🔬
  2. Some Remarks on the Inverse Problem in the Variational Calculus 🧩📐
  3. On Superization of Nonlinear Integrable Dynamical Systems (Preprint) 🔄💡
  4. Supersymmetric Integrable Hamiltonian Systems and Their Factorized Semi-Supersymmetric Generalizations 🌀🔒
  5. On Some Aspects of the Courant-Type Algebroids and Integrable Systems ⚙️📚
  6. On the Quantum Deformations of Associative Sato Grassmannian Algebras 🧪🧬
  7. Раціональна факторизація гамільтонових потоків 🔬🌐
  8. Symplectic Geometry Aspects of the Kardar–Parisi–Zhang Equation 🏛️🌪️
  9. Special Issue Editorial “Symmetry of Hamiltonian Systems” 📘📈
  10. Dark Type Dynamical Systems: The Integrability Algorithm 🌑🧮
  11. Quantum Current Algebra in Action 🔮⚡
  12. Entropy and Ergodicity of Boole-Type Transformations 🔄📉
  13. On the Finite Dimensionality of Closed Subspaces 🔢📐
  14. On the Bogolubov’s Chain of Kinetic Equations 🔗📉
  15. Quantum Current Algebra Symmetry and Description of Kinetic Equations 🧬💥