Aaroon Das | Material | Best Researcher Award

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Mr. Aaroon Das | Material | Best Researcher Award

PhD Student, Capital University of Science & Technology, Pakistan

Engr. Aaroon Joshua Das is a distinguished PhD Scholar in Structural Engineering at Capital University of Science & Technology (CUST), Islamabad, and currently serves as the Project Director at the Ministry of Federal Education & Professional Training, Islamabad, Pakistan. With a strong engineering background, he specializes in project management, contract administration, and strategic planning, ensuring the successful execution of mega projects. Aaroon is deeply passionate about sustainability and works towards integrating it into construction by researching the recycling of plastic waste. His work aims to provide eco-friendly, cost-effective solutions for the construction industry. Through his innovative research, Aaroon seeks to tackle significant environmental challenges, contributing to a more sustainable and efficient future in infrastructure development.

Profile

Orcid

Education

Aaroon Joshua Das holds a Master’s degree in Structural Engineering and is currently pursuing a PhD at Capital University of Science & Technology (CUST), Islamabad. His academic journey has focused on advanced civil engineering concepts, particularly related to sustainable construction materials and practices. His research at CUST explores the use of recycled plastic in the construction industry, aiming to reduce environmental pollution and cost. Aaroon’s educational background also includes extensive training in project management and contract administration, equipping him with the skills to lead large-scale infrastructure projects. His ongoing PhD research is dedicated to pioneering methods for utilizing waste plastic as a primary construction material, contributing to both sustainability and cost-effectiveness in the construction industry.

Experience

Engr. Aaroon Joshua Das brings a wealth of experience in both engineering and project management. As Project Director at the Ministry of Federal Education & Professional Training, Islamabad, he oversees the execution of large-scale government projects, ensuring they are completed on time, within budget, and according to quality standards. With a keen interest in sustainability, Aaroon’s role bridges engineering practice and environmental responsibility. His experience includes contract administration, strategic planning, and risk management for infrastructure projects. Additionally, Aaroon’s academic expertise as a PhD scholar at CUST enhances his project management approach, providing him with in-depth knowledge of innovative, sustainable building materials. Through his ongoing research on recycling plastic waste for construction, he contributes to both his professional work and academic pursuits, fostering the development of green technologies in the construction sector.

Research Focus 

Engr. Aaroon Joshua Das’s research is focused on innovative and sustainable construction materials, particularly the use of recycled plastic in building construction. Recognizing the growing environmental concerns surrounding plastic waste, his work aims to create eco-friendly solutions by utilizing plastic as a primary construction material, rather than as a composite. This approach has the potential to significantly reduce construction costs while also addressing the global plastic waste crisis. Aaroon’s research is pioneering in the field, as it explores the potential of plastic to replace traditional construction materials, making buildings more sustainable. His work combines material engineering and recycling processes to assess the feasibility of using plastic waste in infrastructure development. Aaroon is committed to furthering this area of research, which has far-reaching implications for the construction industry’s environmental footprint, potentially revolutionizing how materials are sourced and used in construction globally.

Publication Top Notes

  1. Prospective Use and Assessment of Recycled Plastic in Construction Industry 🏗️♻️

 

 

 

Davide Frumento | Molecular Oncology | Best Researcher Award

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Prof. Davide Frumento | Molecular Oncology | Best Researcher Award

Adjunct Professor, RomaTre University, Italy

Dr. Davide Frumento is an experienced academic and researcher currently serving as an adjunct professor at Roma Tre University and Milan University in Italy. With a strong background in chemical engineering and biotechnology, he has contributed extensively to the scientific community in various research fields. His multidisciplinary expertise bridges molecular oncology, epigenetics, and biotechnology. Passionate about advancing scientific knowledge, Dr. Frumento has worked in both academic and industry settings, collaborating with top-tier institutions like Harvard University. His research is focused on innovative solutions in health, biotechnology, and environmental sustainability.

Profile

Orcid

Education 

Dr. Davide Frumento holds a PhD in Chemical Engineering from Genoa University (2012-2015), where he specialized in biotechnology applications. He graduated with a BSc and MSc in Biotechnology from the same institution (2005-2011). He further broadened his qualifications with a certification as a Scientific Expert for Criminal Procedures Court of Savona (2024). His academic journey reflects a consistent commitment to advancing his knowledge and skills, particularly in molecular sciences. Throughout his career, Dr. Frumento has continuously expanded his expertise by engaging in postdoctoral research at prominent institutions, including the University of Genoa, Milan University, and Harvard University. His extensive education has laid a strong foundation for his contributions to both academia and the industry.

Experience

Dr. Frumento has a distinguished career in academia and research. Since February 2025, he has served as an adjunct professor at the Penitentiary University Center, Milan University. He also holds a position as an adjunct professor in Epigenetics at Roma Tre University, Italy, since 2021. Previously, he has worked as a postdoctoral researcher at Genoa University, San Raffaele Hospital, and Milan University, where he contributed to research in health sciences and biotechnology. His postdoctoral research has spanned multiple departments, including DISSAL, DIMES, and DIFAR, focusing on various aspects of molecular biology, microbiota, and immunology. Dr. Frumento’s industrial experience includes a role as a Quality Control Microbiology Analyst at Noberasco SpA, further showcasing his diverse professional background. His broad expertise in both academic and industry research makes him a significant contributor to the scientific community.

Awards and Honors

Dr. Frumento’s contributions to the scientific field have earned him several prestigious awards. Notably, in 2021, he received the Smart Cup Scientific Award for Innovation and Technology from Regione Liguria, recognizing his work in health and environmental technology implementation. Earlier, in 2014, he won the Start Cup Scientific Award from the University of Genoa for his innovative work on a microtubular photobioreactor, aimed at improving microalgae culture for commercial use. His dedication to scientific innovation is also reflected in his membership in multiple scientific and technical organizations, including STRA and the Research Data Alliance. Dr. Frumento’s recognition within both the academic and industry sectors highlights his commitment to advancing research in molecular sciences, biotechnology, and environmental sustainability.

Research Focus

Dr. Frumento’s research spans several cutting-edge areas of molecular biology, with particular emphasis on biotechnology, molecular oncology, epigenetics, and environmental sciences. His work on the human microbiota’s role in immune responses and diseases such as hepatitis C and multiple sclerosis has contributed significantly to understanding their interplay. Additionally, he has explored the role of sirtuins in autoimmunity, studying SIRT6 inhibition as a therapeutic strategy for multiple sclerosis and other autoimmune diseases. Dr. Frumento’s research in the application of light-based technologies in immunotherapy further highlights his focus on innovative solutions for health and disease management. His work extends to environmental sustainability, where he investigates biotechnological applications for waste management and bioengineering, particularly in areas such as microalgae culture. By blending molecular biology with practical applications in medicine and the environment, Dr. Frumento continues to push the boundaries of scientific discovery.

Publication Top Notes

  • Interaction Between Human Microbiota, Immune System, and Hepatitis C Virus Infection: A Narrative Review 🦠
  • Light-based technologies in immunotherapy: advances, mechanisms, and applications 💡
  • Effects of Wildfire Exposure on the Human Immune System 🔥🧬
  • Small Molecule Tyrosine Kinase Inhibitors (TKIs) for Glioblastoma Treatment 💊
  • Health Technology Assessment (HTA) sull’introduzione di coorti aggiuntive per la vaccinazione contro il meningococco 🦠💉
  • Sirt6 inhibition delays the onset of experimental autoimmune encephalomyelitis by reducing dendritic cell migration 🧠
  • E-Muser (Enhanced Multiple Sclerosis Expected Rate): A Technical Improvement 🧑‍🔬
  • Sarcoglycanopathies: A Novel Predictive Approach 🧬
  • SIRT6 inhibition as a therapeutic approach for treating multiple sclerosis 🧠💉
  • DAI (Disease Aggressiveness Index) Implementation 📊
  • MuSER (Multiple Sclerosis Expected Rate) Predictive Model Development 🧠📈
  • Gut Microbiota Role in Liver Regeneration 🦠💡
  • Microbiota and HCV Infection Interplay 🦠
  • Oral bacteria contribution in wine flavor perception 🍷🦠
  • The efficacy of the new anti HCV therapy, implementation of a path based on the logic of micro-elimination in the Department of Mental Health and Addictions ASL4 Chiavarese 💊

 

 

Mahdi Shadabfar | Geotechnical Engineering | Best Researcher Award

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Prof. Mahdi Shadabfar | Geotechnical Engineering | Best Researcher Award

Assistant Professor, Ayatollah Boroujerdi University, Iran

Mahdi Shadabfar is a leading researcher and academic in the fields of artificial intelligence and machine learning, with a focus on geotechnical engineering. He currently serves as a Research Fellow at Lakehead University, Canada, specializing in probabilistic geohazard analysis using deep learning techniques. His extensive background includes postdoctoral research at Sharif University of Technology in Iran and Tongji University in China. Dr. Shadabfar has contributed significantly to geotechnical engineering, particularly in reliability analysis, risk assessment, and resilience of civil infrastructure under uncertain conditions. He holds a Ph.D. in Geotechnical Engineering from Hohai University, China, and has received numerous prestigious awards and honors for his work. Dr. Shadabfar’s research explores deep learning, Internet of Things (IoT), and disaster response strategies, aiming to drive innovation in civil and geotechnical engineering practices.

Profile

Google Scholar

Education

Dr. Mahdi Shadabfar holds a Ph.D. in Geotechnical Engineering from Hohai University, China (2012-2017), where he conducted pioneering research in the reliability analysis of induced damage by single-hole rock blasting. He earned his Master’s degree in Civil Engineering, Earthquake Engineering, from Shahid Beheshti University, Tehran, Iran (2009-2011), focusing on the seismic behavior of buried steel pipelines. His Bachelor’s degree, also from Shahid Beheshti University (2005-2009), was in Civil Engineering, with a thesis on retrofitting RC structures using FRP. Throughout his academic journey, Dr. Shadabfar has been recognized for his excellence in research and academic performance, achieving high GPAs in his studies. He has also pursued various short-term programs and received international recognition, including visiting tsunami-stricken areas of Japan as part of a research program sponsored by Japan’s Ministry of Education, Culture, Sports, Science, and Technology (MEXT).

Experience

Dr. Shadabfar has vast academic and professional experience in civil and geotechnical engineering. He is currently a Research Fellow at Lakehead University in Canada, focusing on probabilistic geohazard analysis using deep learning. Prior to this, he completed postdoctoral research at Sharif University of Technology in Iran, studying performance-based reliability analysis of underground structures, and at Tongji University in China, where he conducted risk and reliability assessments for geotechnical systems. In addition to his research roles, Dr. Shadabfar has taught at several institutions worldwide, including Fujian University of Technology (China), Lorestan University (Iran), and Shahid Beheshti University (Iran), where he led courses in earthquake engineering, geostatistics, and structural analysis. He also created and delivered online courses on his personal website, focusing on topics like deep neural networks and Monte Carlo sampling, demonstrating his commitment to academic innovation and knowledge dissemination in the field of geotechnical engineering.

Awards and Honors

Dr. Mahdi Shadabfar has received numerous prestigious awards and honors throughout his career. He was awarded funding from the Northern Ontario Heritage Fund Corporation (NOHFC) to support his research at Lakehead University. He also received national talent funding from Iran’s National Elites Foundation (INEF) for his research position at Sharif University of Technology. Dr. Shadabfar’s postdoctoral research at Tongji University in China was supported by dedicated research funding for two years. His academic excellence has been recognized through the “Academic Innovation” award from Hohai University for two consecutive years (2013-2014). Furthermore, he was awarded a full scholarship by the China Scholarship Council (CSC) for his doctoral studies in China. These accolades highlight his exceptional contributions to geotechnical engineering and research, reflecting his innovative approach to applying artificial intelligence and machine learning techniques in infrastructure resilience and risk analysis.

Research Focus

Dr. Mahdi Shadabfar’s research focuses on applying artificial intelligence and machine learning techniques in the field of geotechnical engineering, specifically in reliability analysis, risk assessment, and the resilience of civil infrastructure. His current work at Lakehead University revolves around probabilistic geohazard analysis through deep learning models. Dr. Shadabfar’s research is centered on optimizing urban infrastructure systems, improving disaster response planning, and assessing the impacts of climate change on civil structures. He is also deeply involved in exploring the Internet of Things (IoT) for smart cities and sustainable infrastructure development, along with predictive maintenance strategies. Furthermore, his work in digital twin technology and augmented reality aims to revolutionize civil engineering design and construction. Dr. Shadabfar’s research seeks to integrate cutting-edge technologies to create robust, sustainable, and resilient infrastructure systems capable of responding effectively to natural disasters and environmental challenges.

Publication Top Notes

  • Deep learning-based automatic recognition of water leakage area in shield tunnel lining 🛠️💧
  • Rock fragmentation induced by a TBM disc-cutter considering the effects of joints 🏗️💥
  • Deep learning‐based classification and instance segmentation of leakage‐area and scaling images of shield tunnel linings 📸🔧
  • Beam damage detection under a moving load using random decrement technique and Savitzky–Golay filter 🏗️⚙️
  • Resilience-based design of infrastructure: Review of models, methodologies, and computational tools 🏢💡
  • Image-based segmentation and quantification of weak interlayers in rock tunnel face via deep learning 🧱🔍
  • An optimization strategy to improve the deep learning‐based recognition model of leakage in shield tunnels 🔍🛠️
  • Multi-source data driven method for assessing the rock mass quality of a NATM tunnel face via hybrid ensemble learning models 📊🪨
  • A combined review of vibration control strategies for high-speed trains and railway infrastructures 🚄🔧
  • Approximation of the Monte Carlo sampling method for reliability analysis of structures 🧮🔬

 

 

Xiaoci Liang | Thin-film Transistor | Best Researcher Award

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Dr. Xiaoci Liang | Thin-film Transistor | Best Researcher Award

Postdoctor, Sun Yat-sen University, China

Dr. Xiaoci Liang is a postdoctoral researcher at Sun Yat-sen University, specializing in microelectronics and solid-state electronics. After completing his Ph.D., M.E., and B.E. in Microelectronics at the same institution, he has contributed significantly to the study of oxide thin-film transistors and electrolyte-gated transistors. His research is aimed at advancing neuromorphic computing and resistive random-access memory (RRAM) technologies. Dr. Liang’s expertise lies in the development of energy-efficient and high-performance devices for the future of computing and memory systems. His academic achievements include multiple high-impact publications in leading journals like Nature Electronics, The Journal of Physical Chemistry Letters, and Applied Physics Letters, showcasing his innovative work in the field of transistors and memory systems. Dr. Liang continues to push the boundaries of semiconductor research with a focus on sustainability, scalability, and performance optimization.

Profile

Education

Dr. Xiaoci Liang pursued his education at Sun Yat-sen University, where he completed his Bachelor’s degree in Microelectronics (2016), followed by his Master’s in Microelectronics and Solid-State Electronics (2019), and his Ph.D. in the same field (2023). His academic journey has been marked by consistent excellence in the field of microelectronics, culminating in cutting-edge research on oxide thin-film transistors and electrolyte-gated transistors. The focus of his studies has been on integrating advanced materials and device architectures to improve the performance of transistors for next-generation computing and memory technologies. His doctoral research has made a significant impact on the development of neuromorphic computing systems and resistive random-access memory (RRAM), establishing him as a leading researcher in the field. Through his educational path, Dr. Liang has acquired a comprehensive understanding of semiconductor physics and the challenges and opportunities in modern electronics and computing technologies.

Experience

Dr. Xiaoci Liang is currently a postdoctoral researcher at the School of Electronics and Information Technology at Sun Yat-sen University. Since joining the university in 2023, he has focused on developing electrolyte-gated transistors and exploring their potential in neuromorphic computing. His prior research experiences include investigating oxide thin-film transistors and their applications in resistive random-access memory (RRAM). His work on high-performance thin-film transistor technologies has been supported by the Natural Science Foundation of China, and the China National Postdoctoral Program for Innovative Talents. Dr. Liang has published extensively in leading journals such as Nature Electronics, The Journal of Physical Chemistry Letters, and Applied Physics Letters. He has also contributed to high-impact research on energy-efficient devices for neuromorphic systems. His experience has established him as a rising star in the field, with a track record of successful projects and cutting-edge technological advancements.

Research Focus

Dr. Xiaoci Liang’s research primarily revolves around thin-film transistors and electrolyte-gated transistors, with a focus on their application in neuromorphic computing and resistive random-access memory (RRAM). He has explored the underlying physical mechanisms that govern the behavior of high-mobility oxide semiconductors, aiming to enhance their performance for next-generation electronic devices. One of his key research interests is developing low-power, high-speed electrolyte-gated transistors that can emulate biological synapses for neuromorphic computing systems. This research holds the potential to revolutionize artificial intelligence hardware. His projects also focus on improving the scalability and energy efficiency of RRAM devices, which are critical for future memory storage solutions. Through innovative research on material properties and device architecture, Dr. Liang is advancing the integration of these technologies into practical applications. His work is positioning him at the forefront of microelectronics research with a vision for sustainable and high-performance electronics.

Publication Top Notes

  1. Multimode transistors and neural networks based on ion-dynamic capacitance 🌐🧠 Nature Electronics, 2022
  2. Evidence for Pseudocapacitance and Faradaic Charge Transfer in High-Mobility Thin-Film Transistors 🧪🔬 The Journal of Physical Chemistry Letters, 2020
  3. Artificial synaptic transistor with solution-processed InOx channel and AlOx solid electrolyte gate 🧠🔋 Applied Physics Letters, 2020
  4. Efficient Defect Engineering for Solution Combustion Processed In-Zn-O thin films for high performance transistors ⚡🔧 Semiconductor Science and Technology, 2017
  5. Extraction method of trap densities for indium zinc oxide thin-film transistors processed by solution method 🔍⚙️ Thin Solid Films, 2018

 

 

 

 

Stuart Maudsley | Receptor Pharmacology | Best Researcher Award

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Prof. Dr. Stuart Maudsley | Receptor Pharmacology | Best Researcher Award

Senior Fellow/Professor, H. Lee Moffitt Cancer Center, United States

Dr. Stuart Russell Maudsley is a renowned pharmacologist with a distinguished career in receptor biology, specializing in therapeutic precision medicines targeting GPCRs (G-Protein Coupled Receptors). He is currently the Principal Investigator at the Maudsley Lab and a Senior Member at Moffitt Cancer Center. Dr. Maudsley is also a co-founder of HeptOME, focusing on aging-related diseases and metabolic dysfunction. With over two decades of research experience, he has held prominent roles including scientific advisor to the Belgian Superior Health Council, and various leadership roles at Johns Hopkins, the NIH, and VIB. His groundbreaking work includes receptor pharmacology and molecular biology studies aimed at advancing novel treatments for complex human disorders, particularly cancer and neurodegenerative diseases. His career has been recognized globally, earning numerous awards and honors for his contributions to molecular pharmacology.

Profile

Education

Dr. Stuart Russell Maudsley obtained his PhD in Pharmacology from the University of Leeds, UK, where he was awarded the Ackroyd, Brotherton & Brown Scholarship. His doctoral research focused on electrophysiological and molecular biological studies of Tachykinin receptors, marking the beginning of his illustrious career in receptor pharmacology. Prior to his PhD, Dr. Maudsley earned a First-Class B.Sc. in Pharmacology from the same institution. During his academic tenure, he engaged in advanced studies of ion channel electrophysiology and the pharmacology of the central nervous system, topics that have significantly shaped his subsequent research endeavors. His educational foundation laid the groundwork for his future contributions in both academia and the pharmaceutical industry, particularly in the development of novel therapeutic strategies for neurodegenerative diseases, cancer, and metabolic disorders.

Experience

Dr. Stuart Russell Maudsley boasts an extensive career with leadership roles across academia, industry, and government. He is the Principal Investigator at the Maudsley Lab at Moffitt Cancer Center and the co-founder of HeptOME, where he focuses on receptor-targeted therapies for aging-related metabolic diseases. Throughout his career, Dr. Maudsley has held various significant positions, including Adjunct Director at VIB, Vice-Chair at the University of Antwerp’s Department of Biomedical Science, and Principal Investigator at the NIH. He has contributed to numerous international projects, including his work as a Special Science Advisor to the Belgian Superior Health Council. Dr. Maudsley has also led scientific teams at Johnson & Johnson, the U.S. Department of Defense, and the NIH, where he made crucial contributions to drug development and the understanding of receptor pharmacology. His leadership and expertise have resulted in groundbreaking advancements in the pharmacology and therapeutics of complex diseases.

Awards and Honors

Dr. Stuart Russell Maudsley has received numerous prestigious awards and honors throughout his career. Notable recognitions include the 2021 UAntwerpen Seal of Excellence Grant, 2020 Johnson & Johnson Research Grant, and the 2019 FWO Doctoral Research Grant. He has also been honored with the FWO Senior Research Fellows Grant and the UAntwerpen-IOF Industrial Collaboration Research Grant in 2019. His work in molecular pharmacology and receptor biology has led to the receipt of multiple awards from both European and American institutions, including the National Institutes of Health On-the-Spot Award (2011-2013). Dr. Maudsley’s groundbreaking research on neurodegenerative diseases, aging, and metabolic dysfunction has earned him widespread recognition in the scientific community. His scientific excellence and contributions to pharmacology, drug discovery, and biotechnology continue to inspire advancements in the treatment of complex human disorders.

Research Focus

Dr. Stuart Russell Maudsley’s research primarily focuses on receptor pharmacology, with a special emphasis on G-Protein Coupled Receptors (GPCRs) and their role in human disease. His work seeks to identify and develop precision GPCR-targeted therapies for cancer, neurodegenerative disorders, and metabolic diseases such as obesity and aging-related conditions. Through his leadership in both academic labs and the biotech industry, Dr. Maudsley investigates novel biotechnological platforms, including both wet and dry biomedical technologies. He aims to create multidimensional precision medicines that can more effectively treat complex disorders, particularly those related to aging. His current research in the Maudsley Lab centers on the molecular mechanisms that underlie aging and neurodegenerative diseases, as well as the identification of potential therapeutic agents. By exploring the intricate signaling pathways of GPCRs, Dr. Maudsley is paving the way for the development of innovative treatments for diseases that currently lack effective therapies.

Publications Top Notes

  • β-Arrestin-dependent formation of β2 adrenergic receptor-Src protein kinase complexes – Science (1999) 🧬📚
  • BDNF and 5-HT: a dynamic duo in age-related neuronal plasticity and neurodegenerative disorders – Trends in Neurosciences (2004) 🧠
  • The effects of intermittent or continuous energy restriction on weight loss and metabolic disease risk markers: a randomized trial in young overweight women – International Journal of Obesity (2011) 🍏🏃‍♀️
  • Gonadotropin-releasing hormone receptors – Endocrine Reviews (2004) 💊🔬
  • Alternate day calorie restriction improves clinical findings and reduces markers of oxidative stress and inflammation in overweight adults with moderate asthma – Free Radical Biology and Medicine (2007) 🏥
  • Caloric restriction and intermittent fasting: two potential diets for successful brain aging – Ageing Research Reviews (2006) 🧠
  • The β2-adrenergic receptor mediates extracellular signal-regulated kinase activation via assembly of a multi-receptor complex with the epidermal growth factor receptor – Journal of Biological Chemistry (2000) 🧬🔬

 

 

 

Julian Plewa | Material Sciences | Excellence in Research

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Prof. Dr. Julian Plewa | Material Sciences | Excellence in Research

Prof., University of Silesia, Poland

Prof. Dr. Julian Plewa is a distinguished materials scientist, currently serving as a full professor at the University of Silesia in Katowice, Poland. With over four decades of experience in academia and research, he has made pioneering contributions to various fields within materials science, including optical materials, superconductors, and mechanical metamaterials. His work in phosphors for energy-efficient lighting has earned him recognition worldwide. Prof. Plewa’s extensive research on materials for advanced technological applications is complemented by his robust teaching career. He has lectured and conducted research at multiple renowned universities and has mentored numerous students and professionals in the field. His research has been widely published in leading journals, and his work is frequently cited by peers in academia and industry. Prof. Plewa’s ongoing contributions continue to influence the development of functional materials and their applications in cutting-edge technologies.

Profile

Education

Prof. Dr. Julian Plewa earned his Master of Science degree in Metallurgy from AGH University of Science and Technology in Cracow, Poland, in 1973, followed by a Doctor of Philosophy in Technical Sciences in 1979. He later advanced his academic career by obtaining his habilitation in Materials Science from the Silesian University of Technology, Gliwice, in 2005. This achievement was a key milestone that propelled him to the rank of full professor in Materials Science at the University of Silesia, Katowice, in 2019. His education spans multiple prestigious institutions, providing him with a strong foundation in metallurgical and materials sciences. Prof. Plewa’s academic journey reflects his dedication to advancing knowledge in materials science, enabling him to contribute significantly to the field and mentor future generations of researchers.

Experience

Prof. Dr. Julian Plewa has an extensive academic career, having taught and conducted research at leading institutions in Poland and Germany. From March 1981 to March 1988, he served as a lecturer at the Silesian University of Technology, Gliwice, teaching Chemical Thermodynamics and Metallurgy of Non-Ferrous Metals. He then worked as a teaching assistant at the University of Applied Sciences Muenster from 2010 to 2017, specializing in Nanoceramics and Technical Thermodynamics. Prof. Plewa’s experience as a visiting professor at Cracow University of Technology from 1995 to 2017 further demonstrates his international expertise. Since 2019, he has been a professor at the University of Silesia, Katowice, where he teaches Functional Materials and Materials Science. Throughout his career, he has influenced numerous students and professionals, shaping the future of materials science research and education. Prof. Plewa’s teaching and research experience have solidified his reputation in the scientific community.

Research Focus

Prof. Dr. Julian Plewa’s research focuses on advanced materials with applications in energy, optics, and emerging technologies. His work on optical materials, particularly phosphors for phosphor-converted light-emitting diodes (pcLEDs), has had a lasting impact on energy-efficient lighting. He also investigates high-temperature superconductors, thermoelectrics, and mechanical metamaterials, which play a crucial role in the development of next-generation materials for various applications, including electronics, sensors, and energy harvesting. Additionally, Prof. Plewa explores the synthesis and characterization of advanced ceramic materials for thermoelectrics and superconducting applications. His research is characterized by interdisciplinary collaboration, incorporating both theoretical studies and experimental techniques. Prof. Plewa’s contributions to the understanding of material properties have been widely cited, influencing research across academia and industry. His ongoing work continues to address global challenges related to sustainability, energy efficiency, and the development of novel functional materials.

Publication Top Notes

  1. Synthesis and optical properties of Li₃Ba₂La₃(MoO₄)₈: Eu³⁺ powders and ceramics for pcLEDs 📚✨
  2. Synthesis and optical properties of yellow emitting garnet phosphors for pcLEDs 💡🟡
  3. The influence of Ag on univariant reactions and the oxygen content of the eutectic melt in the Y–Ba–Cu–(Ag)–O system 🔬⚡
  4. Synthesis and optical properties of green emitting garnet phosphors for phosphor-converted light emitting diodes 💚💡
  5. The effect of Al–O substitution for Si–N on the luminescence properties of YAG: Ce phosphor 🌟🔧
  6. Thick films of ceramic superconducting, electro-ceramic materials 🧲📏
  7. Semiconductor ceramics for NTC thermistors: the reliability aspects 🔋🛠
  8. Preparation and characterization of calcium cobaltite for thermoelectric application 🌡️⚙️
  9. Application of mechanochemical processing to synthesis of YAG: Ce garnet powder 🔬🟠
  10. Investigation of modified auxetic structures from rigid rotating squares 📐🔄

 

 

 

Fatemeh Izadpanah | Biochemistry | Best Researcher Award

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Mrs. Fatemeh Izadpanah | Biochemistry | Best Researcher Award

Student, Potsdam University, Germany

Fatemeh Izadpanah is an accomplished researcher and PhD student in Nutrition Science at the University of Potsdam, Germany. With a background in Horticultural Sciences from the University of Tehran and University of Mazandaran, Iran, she specializes in food chemistry and plant physiology. Fatemeh has garnered extensive research experience in the analysis of secondary metabolites, plant growth under various environmental conditions, and the effects of water management on vegetable crops. Her work has been recognized internationally, and she has contributed to various scientific journals and conferences, particularly on the topics of plant nutrition, stress responses, and pigment compositions. Fatemeh currently works as a Scientific Coordination Production Planner at LGC Standards in Luckenwalde, Germany, following her previous role as a Research Scientist at the Leibniz Institute of Vegetable and Ornamental Crops (IGZ) in Germany.

Profile

Google Scholar

Education

Fatemeh Izadpanah holds a PhD in Nutrition Science from the University of Potsdam, Germany (Oct. 2018 – Present), focusing on food chemistry and biochemistry. She also earned her Master’s degree in Horticultural Sciences from the University of Tehran, Iran (Oct. 2007 – Feb. 2010), where she specialized in the physiology and breeding of medicinal plants. Additionally, she completed a Bachelor’s degree in Horticultural Sciences at the University of Mazandaran, Iran (Oct. 2002 – Sep. 2006). Her academic journey has been complemented by various conferences and symposia such as the Medicinal Plant Congress (Tehran, 2003) and the International Symposium on Saffron (Kozani, Greece, 2009), where she presented her research. Throughout her career, Fatemeh has continuously expanded her expertise in plant biochemistry, secondary metabolite analysis, and agricultural sustainability.

Experience

Fatemeh Izadpanah’s career spans both academic research and industry experience. She currently works as a Scientific Coordination Production Planner at LGC Standards, Germany, since March 2024, focusing on planning and coordinating scientific production efforts. From March to May 2024, she also interned at KWS Company, Petkus, Germany, as a Data Analyst. Prior to this, Fatemeh served as a Research Scientist at the Leibniz Institute of Vegetable and Ornamental Crops (IGZ), Germany (Jun. 2018 – May 2022), where she worked on the CarCauli project, funded by the Federal Office of Agriculture and Food (BLE), and contributed to research on plant pigments, secondary metabolites, and environmental stress factors. Her early career also includes an internship at the Boalli Research Center of Medical University, Mashhad, Iran, where she managed a medicinal plant garden. This diverse range of experiences positions her as a leader in plant science research.

Research Focus

Fatemeh Izadpanah’s research primarily focuses on the growth, pigmentation, and stress responses of plants. Her most notable research includes the study of carotenoids and chlorophylls in various vegetable cultivars, particularly colored cauliflowers, and the impact of environmental factors such as water management and shading on plant growth and pigment composition. Her work extends into secondary metabolite analysis and molecular biology, including laboratory techniques like PCR, qRT-PCR, and HPLC. Fatemeh is also deeply involved in drought stress research and its effects on plant traits in crops like broccoli and cauliflower. She has a strong interest in sustainable agriculture and the impact of environmental management on crop quality and resilience. Her research helps optimize cultivation techniques to ensure better plant performance and nutritional value under varying environmental stress conditions.

Publication Top Notes

  • Impact of Water Management on Growth and Pigment Composition of Cauliflower and Broccoli 🌱💧 (Feb. 2025)
  • Comparison of carotenoid, chlorophyll concentrations and their biosynthetic transcript levels in different coloured cauliflower 🥦🟠 (May. 2024)
  • Impact of Drought Stress on Growth Traits of Cauliflowers and Broccoli 🌾☀️ (Sep. 2021)
  • Effects of Shading on Plant Growth, Chlorophylls, and Carotenoids in Florets of Differently Colored Cauliflowers 🌿🌞 (Mar. 2021)
  • Carotenoid accumulation mechanisms in colored cauliflower 🌈🥬 (Nov. 2019)
  • Carotenoids and Chlorophylls in colored cauliflower 🌽🟢 (Sep. 2018)
  • Molecular and morphological variation in some Iranian saffron accessions 🌸🔬 (Jan. 2015)
  • Variation in Saffron accessions and Crocus wild species by RAPD analysis 🌸🧬 (Oct. 2014)
  • Evaluation of the effects of Saffron corm extract on growing indices of Malva sylvestris 🌿🌸 (Jul. 2009)
  • Evaluation of the effects of Saffron corm extract on growing indices of Cucurbita prop var. styrica 🎃🌼 (May. 2009)

 

 

Mahnoor Gondal | Bioinformatics | Best Researcher Award

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Ms. Mahnoor Gondal | Bioinformatics | Best Researcher Award

PhD Candidate at University of Michigan, United States.

Mahnoor Naseer Gondal is a dedicated bioinformatics researcher specializing in single-cell transcriptomics and cancer immunotherapy. Pursuing her Ph.D. at the University of Michigan 🏛️, she works under the mentorship of Dr. Arul Chinnaiyan and Dr. Marcin Cieslik. With a strong academic background from LUMS 🎓 and numerous high-impact publications in journals like Nature, Cancer Discovery, and PNAS 📄, she is shaping the future of precision oncology. Passionate about computational biology, immune-oncology, and translational medicine 🧑‍🔬, she strives to integrate cutting-edge bioinformatics tools to advance personalized cancer treatment.

Professional Profile:

ORCID

Google Scholar

Suitability for Best Researcher Award

Mahnoor Naseer Gondal is a highly qualified candidate for the Best Researcher Award, given her exceptional contributions to the field of bioinformatics, cancer immunotherapy, and single-cell transcriptomics. Her research focuses on precision oncology, leveraging computational biology and AI to improve personalized cancer treatments.

Education & Experience 🎓🔬

Ph.D. (Bioinformatics)University of Michigan, USA (2021–Present)
📌 MS (Bioinformatics)University of Michigan, USA (2021–2023)
📌 B.S. (Biology)Lahore University of Management Sciences (LUMS), Pakistan (2016–2020)

👩‍🔬 Research Experience
🔹 Works on cancer immunotherapy, single-cell RNA sequencing, and tumor microenvironment analysis 🏥
🔹 Published in top-tier journals like Nature, Cancer Discovery, and Scientific Reports 📄
🔹 Contributor to cancer database integration and precision medicine models 🖥️

Professional Development 🌍📚

Mahnoor actively engages in scientific conferences, including AACR (American Association for Cancer Research) 🏅 and Frontiers in Bioinformatics. She has collaborated with leading cancer research labs to develop novel bioinformatics models and enhance therapeutic strategies for immune checkpoint blockade and tumor microenvironment analysis 🧑‍⚕️. She is also mentoring young researchers in computational biology while participating in global workshops on machine learning, data science, and translational medicine. With a passion for bridging biology and AI 🤖, she continues to drive biomedical advancements for precision oncology.

Research Focus 🧬🔍

Mahnoor’s research primarily revolves around cancer systems biology, single-cell transcriptomics, and immune-oncology. Her expertise includes:
🔬 Single-cell RNA sequencing to study tumor heterogeneity and immune resistance 🧑‍⚕️
🧪 Non-coding RNA mechanisms in colorectal cancer for better therapeutic targeting
🖥️ Integration of cancer datasets to enhance personalized treatment approaches
🦠 Immunotherapy resistance mechanisms to develop more effective cancer treatments
⚕️ Computational modeling of cancer for identifying new biomarkers and drug targets

Awards & Honors 🏆🎖️

🏅 Best Research Paper Award – Frontiers in Oncology (2021)
📜 AACR Research Recognition Award – American Association for Cancer Research (2024)
🏆 Outstanding Graduate Researcher Award – University of Michigan (2023)
🔬 Special Issue Publication Recognition – Featured in high-impact oncology journals
🌍 Invited Speaker at AACR, Cancer Research Conferences, and Bioinformatics Summits

Publication Top Notes

  • Title: A Systematic Overview of Single-Cell Transcriptomics Databases, their Use Cases, and Limitations

    • Authors: MN Gondal, SUR Shah, AM Chinnaiyan, M Cieslik
    • Citations: 43
    • Year: 2024

  • Title: Navigating multi-scale cancer systems biology towards model-driven clinical oncology and its applications in personalized therapeutics

    • Authors: MN Gondal, SU Chaudhary
    • Citations: 37
    • Year: 2021

  • Title: A personalized therapeutics approach using an in silico Drosophila patient model reveals optimal chemo-and targeted therapy combinations for colorectal cancer

    • Authors: MN Gondal, RN Butt, OS Shah, MU Sultan, G Mustafa, Z Nasir
    • Citations: 29
    • Year: 2021

  • Title: A cyanobacterial photorespiratory bypass model to enhance photosynthesis by rerouting photorespiratory pathway in C3 plants

    • Authors: G Khurshid, AZ Abbassi, MF Khalid, MN Gondal, TA Naqvi, MM Shah
    • Citations: 27
    • Year: 2020

  • Title: TISON: a next-generation multi-scale modeling theatre for in silico systems biology

    • Authors: MN Gondal, MU Sultan, A Arif, A Rehman, HA Awan, Z Arshad
    • Citations: 23
    • Year: 2021

Kyeong A So | Gynecologic oncology | Best Researcher Award

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Assoc. Prof. Dr. Kyeong A So | Gynecologic oncology | Best Researcher Award

Associate Professor, Konkuk University Hospital, South Korea

Dr. Kyeong A So is an Associate Professor in the Department of Obstetrics and Gynecology at Konkuk University Hospital and School of Medicine, Seoul, Korea. With a distinguished career in gynecologic oncology, Dr. So has contributed significantly to the understanding and treatment of gynecologic cancers. Having earned an M.D., a Master’s degree, and a Ph.D. in Medicine from Korea University, Dr. So’s expertise spans clinical practice, research, and education. They have held various clinical and academic roles, including Assistant Professor and Clinical Professor in prominent hospitals. Dr. So is a leading member of numerous professional organizations such as the Korean Society of Gynecologic Oncology and the Korean Gynecologic Oncology Group. Recognized for their work in both research and education, Dr. So continues to make a remarkable impact in the field through pioneering studies and leadership roles.

Profile

Scopus

Education

Dr. Kyeong A So completed their education at Korea University, Seoul, Korea. They began with the Premedical School from 2000-2002, followed by an M.D. from Korea University School of Medicine (2002-2006). This was followed by advanced postgraduate studies, culminating in a Master of Science degree (2007-2009) and a Doctor of Philosophy (Ph.D.) in Medicine (2009-2012) from Korea University Graduate School. This solid educational foundation has equipped Dr. So with a deep understanding of both clinical and research aspects of gynecologic oncology. Their academic path demonstrates a commitment to continuous learning and advancing medical knowledge, particularly in the field of gynecologic cancer treatment and research.

Experience

Dr. Kyeong A So has an extensive career in both clinical and academic settings. After completing their internship at Seoul National University Hospital (2006-2007), Dr. So trained as a resident at Korea University Guro Hospital, specializing in Obstetrics and Gynecology from 2007-2011. Following residency, they completed a fellowship in Gynecologic Oncology at the same hospital from 2011-2014. Dr. So’s academic journey includes roles as a Clinical Professor at Myongji Hospital (2014-2015) and as an Assistant Professor at Cheil General Hospital and Women’s Healthcare Center (2015-2018). In 2019, they joined Konkuk University Hospital as an Assistant Professor and became an Associate Professor in 2022. In these roles, Dr. So has made significant contributions to medical education, research, and patient care in the field of gynecologic oncology.

Awards and Honors

Dr. Kyeong A So has received several awards and honors in recognition of their excellence in the field of gynecologic oncology. In 2010, they were honored with a Certificate of Commendation from Korea University Medical Center. In 2013, Dr. So received the “Best Oral Abstract” award at the 14th Annual Congress of the Asia-Pacific Association for Gynecologic Endoscopy for their groundbreaking research. Their research has also been widely published and cited, further establishing Dr. So as a leading expert in the field. These accolades reflect Dr. So’s commitment to advancing gynecologic oncology, both through clinical practice and innovative research, and underscore their standing as a respected academic and clinician.

Research Focus

Dr. Kyeong A So’s research focuses on advancing the understanding, diagnosis, and treatment of gynecologic cancers, particularly endometrial and ovarian cancers. They have investigated the molecular and clinical aspects of cancer recurrence, treatment efficacy, and fertility preservation in cancer patients. Dr. So’s work on the impact of menopausal status on HPV infection and vaginal dysbiosis has also contributed to the broader understanding of gynecologic health. Their current research efforts include exploring novel treatment regimens such as immunotherapy and personalized medicine. Through collaboration with international researchers and involvement in clinical trials, Dr. So is committed to improving patient outcomes and providing innovative solutions in the treatment of gynecologic cancers. This work has been widely published, with several articles appearing in high-impact journals, and has garnered significant attention in the scientific community.

Publication Top Notes

  1. Surgical staging in early endometrial cancer without intra-uterine manipulator using the da Vinci SP robotic system 🦠🩺
  2. Risk factors for the recurrence in patients with early endometrioid endometrial cancer achieving complete remission for fertility-sparing hormonal treatment 🔬
  3. Menopausal status induces vaginal dysbiosis in women with human papillomavirus infection 🔬
  4. Atezolizumab and chemotherapy for advanced or recurrent endometrial cancer (AtTEnd): a randomised, double-blind, placebo-controlled, phase 3 trial 📊🧬
  5. The Expression and Amplification of HER2 Has a Significant Impact on the Prognosis of Endometrial Carcinoma in Korean Patients 🧪📑

 

 

Friedrich Paulsen | Medicine | Excellence in Research

Published on by Popular Engineer

Mr. Friedrich Paulsen | Medicine | Excellence in Research

Head of Department of Functional and Clinical Anatomy, Friedrich-Alexander-University Erlangen-Nürnberg, Germany

Professor Friedrich Paulsen is a distinguished anatomist, specializing in gross anatomy and histology. He serves as the Chair of the Institute of Functional and Clinical Anatomy at Friedrich Alexander University (FAU) Erlangen-Nürnberg, Germany. With a wealth of experience in both teaching and research, Dr. Paulsen is a renowned figure in the field of anatomy and has contributed extensively to textbooks such as the SOBOTTA Atlas and SOBOTTA Textbook of Human Anatomy. He has held key positions, including Secretary General of the International Federation of Associations of Anatomists (2009–2019) and president of the European Federation of Experimental Morphology (2021-2023). His research interests focus on the head and neck region, specifically the ocular surface and tear film, making him one of the top 2% most cited scientists in the world in his field.

Profile

Education

Professor Friedrich Paulsen earned his MD from CAU Kiel in Germany, where he began his journey into the world of anatomy and histology. He later expanded his research capabilities through a position as a researcher at the University of Bristol, UK. Over the years, Dr. Paulsen’s educational pursuits and scientific contributions have been complemented by his leadership in the academic field. From 2004 to 2010, he was a full professor of anatomy at MLU Halle-Wittenberg, before taking the Chair at FAU Erlangen-Nürnberg. Throughout his career, Dr. Paulsen’s commitment to academic excellence has been recognized with multiple honorary doctorates, including from Carol Davila University (2022) and Grigore T. Popa University (2023). His comprehensive educational background, from his early medical training to his leadership in anatomical education, has allowed him to shape future generations of scientists and medical professionals.

Experience

Professor Friedrich Paulsen has extensive experience in both research and academic leadership. Since 2006, he has been an active member of the German Anatomische Gesellschaft, serving as secretary and board member. His leadership extended internationally as he was the Secretary General of the International Federation of Associations of Anatomists from 2009 to 2019. From 2016 to 2022, he held the position of Vice President at Friedrich Alexander University (FAU), overseeing a student body of over 41,000. Throughout his career, Dr. Paulsen has also served as editor-in-chief of the Annals of Anatomy and as section editor for numerous scientific journals. His academic and professional expertise has earned him significant recognition in the anatomical community, further reinforcing his reputation as a global leader in the field of anatomy. He has contributed to over 400 peer-reviewed articles and book chapters, solidifying his legacy as a pioneer in clinical and functional anatomy.

Research Focus

Professor Friedrich Paulsen’s research primarily focuses on the functional and clinical anatomy of the head and neck region, with particular emphasis on the ocular surface, tear film, and draining lacrimal system. His work in ocular immunology has provided important insights into the immune functions of the eye and its surrounding structures. Through his research, Dr. Paulsen has contributed significantly to understanding the mechanical properties of human tissues, particularly the brain and synovial joints, which has important implications for medical treatments and interventions. His research is not confined to anatomy alone; he has also worked on clinical applications related to ophthalmology, cancer biology, and antimicrobial peptides. As one of the most highly cited scientists in the field, his ongoing work continues to bridge the gap between theoretical anatomical knowledge and its practical application in medical practice.

Publication Top Notes

  • Mechanical characterization of human brain tissue 🧠🔬 (Cited 647 times, 2017)
  • Locally renewing resident synovial macrophages provide a protective barrier for the joint 🦴💪 (Cited 509 times, 2019)
  • Acknowledging the use of human cadaveric tissues in research papers: Recommendations from anatomical journal editors 💀📑 (Cited 499 times, 2021)
  • The dissection course–necessary and indispensable for teaching anatomy to medical students 📚🦷 (Cited 415 times, 2008)
  • The international workshop on meibomian gland dysfunction: report of the subcommittee on tear film lipids and lipid–protein interactions in health and disease 👁️💧 (Cited 397 times, 2011)
  • Sobotta Atlas of Anatomy, Vol. 2, English/Latin: Internal Organs 📖🫀 (Cited 326 times, 2023)
  • Curving and looping of the internal carotid artery in relation to the pharynx: frequency, embryology and clinical implications 🏥🩺 (Cited 307 times, 2000)
  • Antitumor activity of the antimicrobial peptide magainin II against bladder cancer cell lines 💉⚔️ (Cited 283 times, 2006)
  • The legal and ethical framework governing Body Donation in Europe-A review of current practice and recommendations for good practice ⚖️📝 (Cited 263 times, 2008)
  • IgA subclasses have different effector functions associated with distinct glycosylation profiles 🧬💉 (Cited 257 times, 2020)
  • Ptf1a is essential for the differentiation of GABAergic and glycinergic amacrine cells and horizontal cells in the mouse retina 👀🐭 (Cited 251 times, 2007)
  • Antimicrobial peptides of the Cecropin-family show potent antitumor activity against bladder cancer cells 🦠🔬 (Cited 248 times, 2008)
  • Schirmer strip vs. capillary tube method: non-invasive methods of obtaining proteins from tear fluid 💧👁️ (Cited 233 times, 2013)