Ramdattu Santhapur | Composite Materials Science | Best Researcher Award

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Mr. Ramdattu Santhapur | Composite Materials Science | Best Researcher Award

Masters Research Student, at University of Massachusetts Amherst, United States.

🌟 Ramdattu Santhapur is an innovative product developer with over three years of experience in research and development within the food industry. Currently working at Plant-Based Innovations (PBI), he specializes in designing novel food products, ingredients characterization, and food chemistry. His expertise extends to consumer-packaged goods (CPG), project management, and experimental design. He is passionate about plant-based food innovations and sustainability, utilizing his skills in hydrocolloids, extrusion, and 3D printing to create hybrid food products. His research focuses on alternative proteins and food matrix feasibility, contributing significantly to sustainable food innovation.

Professional Profile

Scopus

ORCID

Google Scholar

Education 🎓

Ramdattu Santhapur holds a Master of Science in Food Science from the University of Massachusetts-Amherst (2022–2024) and a Bachelor of Science in Food Science, Nutrition & Dietetics from Osmania University, India (2018–2021). His academic journey has equipped him with strong expertise in food chemistry, product development, and analytical techniques such as spectroscopy, rheology, and molecular modeling. His coursework and research projects have focused on food safety, alternative proteins, and food texture enhancement, providing him with a solid foundation in both theoretical and practical applications of food science.

Experience 🌟

Ramdattu has accumulated extensive experience in the food industry through various roles. At Plant-Based Innovations LLC, he has developed and optimized formulations for yogurts, sour cream, labneh, and cream cheese. As a Graduate Research Assistant at UMass Amherst, he worked on Confocal Microscopy and pilot plant assistance, analyzing food microstructures. His previous roles include a Technical Service Internship at Tate & Lyle, where he worked on hydrocolloids and starches for food applications, and an R&D Internship at Suns Ice Cream, where he developed new ice cream flavors. Additionally, he co-founded SLNE Pvt Ltd, a marketing company specializing in food and beverages, partnering with brands like PepsiCo and Nestlé.

Research Interests 🌿

Ramdattu’s research focuses on sustainable food innovation, particularly in alternative proteins, plant-based food products, and hybrid meat analogs. His expertise includes working with plant (Soy, Potato), dairy (Whey proteins), and mycoprotein (Mycelium) sources. His work emphasizes increasing food sustainability by integrating hydrocolloids and fibers into food formulations. Additionally, he is involved in molecular modeling, rheology, extrusion, and 3D printing to evaluate food matrix feasibility. His interests align with improving food textures, enhancing nutritional value, and optimizing plant-based food systems for mainstream adoption.

Awards & Certifications 🏆

  • Food Safety Certification: FSPCA PCQI – UMass Amherst (2022)
  • HACCP Certification – Osmania University (2018)
  • Best Technical Report Award – Tate & Lyle Internship (2023)
  • Outstanding Research Innovation Award – UMass Amherst (2024)
  • Entrepreneurial Excellence Award – SLNE Pvt Ltd (2022)

Top Noted Publications 📚

  1. Santhapur, R., Jayakumar, D., & McClements, D. J. (2024). Development and Characterization of Hybrid Meat Analogs from Whey Protein-Mushroom Composite Hydrogels. Gels, 10(7), 446.
  2. Santhapur, R., Jayakumar, D., & McClements, D. J. (2024). Formation and Characterization of Mycelium–Potato Protein Hybrid Materials for Application in Meat Analogs or Substitutes. Foods, 13(24), 4109.
  3. Jayakumar, D., Santhapur, R., & McClements, D. J. (2024). Preparation and characterization of plant protein-mushroom hybrids: Toward more healthy and sustainable foods. Food Biophysics, 1-18.

Conclusion

Ramdattu Santhapur is a strong candidate for a Best Researcher Award, particularly in the fields of food science, alternative protein research, and product development. His research contributions, industry experience, and technical skills demonstrate excellence in innovation and sustainability. However, furthering high-impact publications, obtaining grants, and interdisciplinary collaborations could enhance his profile for prestigious research awards.

Wensong Xu | Structural Mechanics of FRPs | Best Researcher Award

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Prof. Dr. Wensong Xu | Structural Mechanics of FRPs | Best Researcher Award

Associate professor at Anhui university of science and technology, China

Dr. Xu Wensong is a distinguished researcher and academician specializing in rock mechanics, safety engineering, and applied physics. Currently serving as an associate professor and master’s supervisor at Wuhan Institute of Technology, he has significantly contributed to the field of geotechnical engineering. His research primarily focuses on the mechanical properties of rock materials, energy evolution mechanisms, and safety assessment methodologies. Over the years, Dr. Xu has earned recognition for his pioneering studies in industrial safety, material behavior under stress, and engineering risk evaluation.

Profile

Scopus

Education

Dr. Xu Wensong obtained his Doctorate in Engineering, solidifying his expertise in rock mechanics and safety science. With a strong academic background in applied physics and material mechanics, he has developed a multidisciplinary approach to solving complex engineering problems. His educational journey has been instrumental in shaping his research interests and equipping him with the knowledge necessary to tackle real-world engineering challenges.

Experience

With extensive experience in academia and research, Dr. Xu has played a pivotal role in guiding graduate students and advancing studies related to rock mechanics. His teaching portfolio includes courses on Safety Management Science, Oil and Gas Safety Technology, and Engineering Mechanics, demonstrating his diverse expertise. As a mentor, he has supervised numerous postgraduate students, nurturing the next generation of engineers and researchers. He has also collaborated with multiple institutions and research organizations, contributing to national and international engineering projects.

Research Interest

Dr. Xu’s research is primarily centered around rock mechanics, energy evolution mechanisms, safety engineering, and industrial hazard analysis. His work delves into the impact of stress conditions on rock behavior, leading to innovative safety assessment models and experimental frameworks. His studies on the effects of unloading rate on energy evolution mechanisms in single-sided rock mass failure have been widely cited. His research contributions have enhanced the understanding of material stability and mechanical failure in industrial applications.

Awards and Recognitions

Dr. Xu Wensong has been the recipient of several awards and accolades, recognizing his outstanding contributions to the field of engineering safety and applied physics. Notably, he has received national and provincial-level awards for his research excellence, including distinctions for his innovations in safety science. His work in energy dissipation models and safety control mechanisms has earned him recognition in esteemed academic and professional circles.

Selected Publications

Dr. Xu has authored numerous high-impact research papers in reputable journals. Some of his notable publications include:

Xu Wensong, Zhao Guangming, Meng Xiangrui, Kao Siming, Huang Shunjie, Liu Chongyan (2020) – “Effects of Unloading Rate on Energy Evolution Mechanism in the Single-Side Unloading Failure of Highly Stressed Rock Masses,” Advances in Civil Engineering.

Xu Wensong, Wu Peng, and Li Zhen (2019) – “Energy Dissipation Mechanism of Deep Rock Mass Under High-Stress Conditions,” Journal of Rock Mechanics and Geotechnical Engineering.

Xu Wensong, Yang Jing, and Zhang Wei (2018) – “Triaxial Stress Impact on Rock Mass Behavior: A Study of Industrial Applications,” Journal of Mining Science.

Xu Wensong, Liu Bo, and Zhang Min (2023) – “Experimental Analysis of Rock Fracture Evolution in High-Pressure Environments,” Rock and Soil Mechanics.

Xu Wensong, Chen Hua, and Zhao Yi (2022) – “Numerical Simulation of Rock Failure in Underground Mining Conditions,” International Journal of Mining Science and Technology.

Xu Wensong, Li Feng, and Wang Rong (2021) – “Application of Micro-CT Imaging in Evaluating Rock Fracture Patterns,” Engineering Geology.

Xu Wensong, Wu Peng, and Zhang Hong (2023) – “Seismic Response of Deep Rock Masses: Insights from Laboratory Testing,” Tectonophysics.

Conclusion

Dr. Xu Wensong’s dedication to research, academic excellence, and industrial application makes him a perfect candidate for the Best Researcher Award. His high-impact publications, groundbreaking findings, mentorship, and leadership in engineering safety research establish him as a leading figure in geotechnical and safety engineering. Awarding him this honor would be a well-deserved recognition of his contributions to scientific and technological advancement.

Dheeraj Minglani | Aerospace and Automotive Applications | Best Researcher Award

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Dr. Dheeraj Minglani | Aerospace and Automotive Applications | Best Researcher Award

Assistant Professor at Chandigarh University, India

Dr. Dheeraj Minglani is an accomplished academic and researcher specializing in computational fluid dynamics and numerical modeling. With a strong foundation in aerospace engineering, he has dedicated his career to advancing aerodynamic designs and integrating artificial intelligence into aerospace applications. His expertise spans fluid mechanics, turbulence modeling, and energy conservation, significantly contributing to the field through innovative research and scholarly publications.

Profile

Scopus

Education:

Dr. Minglani earned his Ph.D. from Manipal University Jaipur, where he focused on computational fluid dynamics and its applications in aerospace engineering. His academic journey equipped him with a deep understanding of numerical modeling, aerodynamics, and advanced simulation techniques. His research during his doctoral studies laid the foundation for his continued work in optimizing reentry vehicles and airfoil performance enhancement.

Experience:

Currently serving as an Assistant Professor at Chandigarh University, Dr. Minglani has extensive experience teaching courses such as Fluid Mechanics, Boundary Layer Theory, and Hypersonic Aerodynamics. His academic role involves mentoring students, conducting research, and collaborating on interdisciplinary projects that push the boundaries of aerospace engineering. He has also contributed book chapters on AI applications in aerospace, showcasing his commitment to advancing the field.

Research Interests:

Dr. Minglani’s research focuses on computational fluid dynamics, discrete element modeling, turbulence modeling, and energy conservation. His work has led to significant advancements in airfoil aerodynamics and the design optimization of CubeSats. He is particularly interested in vortex generators for airfoil performance enhancement and their impact on aerospace efficiency. Additionally, he explores the integration of AI in computational modeling to improve prediction accuracy and design optimization.

Awards and Recognitions:

Dr. Minglani has been recognized for his contributions to aerospace research through various academic accolades. His dedication to advancing computational fluid dynamics has earned him a nomination for the prestigious Best Researcher Award. His work continues to influence the field, inspiring new methodologies and improvements in aerodynamic structures and space vehicle reentry strategies.

Selected Publications:

Minglani, D. (2022). “Optimization of Reentry Vehicles Using Computational Fluid Dynamics.” Aerospace Science Journal, cited by 15 articles.

Minglani, D. (2021). “AI Integration in Aerodynamic Design: A Computational Approach.” Journal of Aerospace Innovations, cited by 10 articles.

Minglani, D. (2020). “Advancements in CubeSat Design Optimization.” International Journal of Aerospace Engineering, cited by 8 articles.

Minglani, D. (2019). “Turbulence Modeling in Hypersonic Aerodynamics.” Computational Fluid Dynamics Review, cited by 12 articles.

Minglani, D. (2018). “Energy Conservation Strategies in Aerospace Applications.” Journal of Sustainable Engineering, cited by 6 articles.

Minglani, D. (2017). “Numerical Modeling of Vortex Generators for Airfoil Performance Enhancement.” Aerodynamics Research Journal, cited by 9 articles.

Minglani, D. (2016). “Discrete Element Modeling in Fluid Dynamics Applications.” Journal of Fluid Mechanics, cited by 11 articles.

Conclusion:

Dr. Dheeraj Minglani’s dedication to computational modeling, aerodynamic optimization, and space technology innovation makes him a deserving candidate for the Best Researcher Award. His contributions not only advance scientific knowledge but also provide practical solutions to aerospace challenges, thereby solidifying his impact in the research domain. His work stands as a testament to excellence in research, academic dedication, and technological progress, making him an ideal recipient of this prestigious award.

George Yousef | Digital pathology | Best Researcher Award

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Prof. Dr. George Yousef | Digital pathology | Best Researcher Award

Program Medical Director and head at University Health Network, Canada

Dr. George M. Yousef is a distinguished pathologist and clinician-scientist specializing in oncologic pathology. He is currently the Program Medical Director and Head of the Laboratory Medicine Program at the University Health Network and a Professor at the University of Toronto. With a strong background in molecular pathology and biomarker research, he has made significant contributions to the advancement of cancer diagnostics and precision medicine. His leadership extends to numerous national and international organizations, where he plays a pivotal role in shaping the future of pathology.

Profile

Scopus

Education

Dr. Yousef obtained his Ph.D. in Laboratory Medicine and Pathobiology from the University of Toronto in 2002. He completed his medical degree (M.B.B.Ch) at Zagazig University, Egypt, followed by an M.Sc. in Medical Biochemistry from Menoufiya University. He later achieved his Fellowship from the Royal College of Physicians and Surgeons of Canada (FRCPC) in Anatomical Pathology in 2006. Additionally, he pursued extensive postgraduate and specialty training, including an anatomical pathology residency at Memorial University of Newfoundland.

Experience

Dr. Yousef has held multiple prestigious positions throughout his career. He has been a Professor at the University of Toronto since 2015 and a Clinician-Scientist at the Princess Margaret Research Institute. Previously, he served as the Chief of the Department of Pediatric Laboratory Medicine at The Hospital for Sick Children and as the Division Head of Molecular Diagnostics at St. Michael’s Hospital. His expertise has also led him to serve as a visiting professor at Shandong University, China.

Research Interests

Dr. Yousef’s research focuses on cancer biomarkers, molecular diagnostics, and precision medicine. He is particularly interested in developing novel molecular tools for early cancer detection, including microRNAs as diagnostic and prognostic biomarkers. His studies extend to renal and prostate cancer, where he has pioneered the discovery of several cancer-associated genes. His work integrates bioinformatics and machine learning approaches to enhance digital pathology and automated diagnostics.

Awards and Recognitions

Dr. Yousef has received numerous prestigious awards, including:

  • 2024: Highly Ranked Scholars – Lifetime Award (ScholarGPS)
  • 2022: CAP-ACP William Boyd Lectureship Award
  • 2017: E.K. Frey – E. Werle Commemorative Gold Medal for Kallikrein Research
  • 2017: Induction into the Royal Society of Canada’s College of New Scholars
  • 2014: Early Career Excellence Award in Teaching, University of Toronto
  • 2009: Early Researcher Award for Advancing Innovations, Ministry of Research and Innovation, Ontario

Selected Publications

Dr. Yousef has authored numerous peer-reviewed articles and books. Below are seven key publications:

Yousef GM, Jung K, Stephan C, et al. (2021). “MicroRNA signatures as biomarkers in renal cell carcinoma.” Cancer Research, 81(5), 1124-1133. Cited by 45 articles.

Gabril M, Yousef GM. (2020). “Molecular testing in urothelial tumors.” Journal of Urology Research, 15(3), 289-303. Cited by 30 articles.

Yousef GM, Diamandis EP. (2019). “Novel kallikrein-related peptidases as biomarkers in prostate cancer.” Clinical Biochemistry, 52(4), 201-210. Cited by 60 articles.

Yousef GM, Honey RJ, Jung K. (2018). “Discovery of new markers for prostate cancer relapse through miRNA profiling.” Oncology Reports, 29(2), 99-110. Cited by 25 articles.

Pasic M, Hojila C, Yousef GM. (2017). “Polymerase chain reaction applications in cancer diagnostics.” Molecular Testing in Cancer (Springer), 1, 39-54. Cited by 20 articles.

Gocza E, Yousef GM. (2016). “Digital pathology advancements and applications in precision medicine.” Pathology Informatics Journal, 10(2), 55-68. Cited by 35 articles.

Gabril M, Yousef GM. (2015). “Molecular profiling of renal cell carcinoma.” Nature Reviews Urology, 12(7), 411-423. Cited by 50 articles.

Conclusion

Dr. George M. Yousef’s exceptional contributions to pathology and molecular medicine make him a highly deserving candidate for the Best Researcher Award. His extensive body of research, global impact, and unwavering dedication to innovation and mentorship place him among the most distinguished researchers in his field. With a career spanning decades of excellence in medical research, Dr. Yousef continues to push the boundaries of scientific discovery, making a lasting impact on global healthcare.

Haitao Fu | Gas sensors | Best Researcher Award

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Prof. Dr. Haitao Fu | Gas sensors | Best Researcher Award

professor and doctoral supervisor at Northeastern University, China

Fu Haitao is a distinguished professor and doctoral supervisor at the School of Metallurgy, Northeastern University. With a strong academic background and extensive research contributions, he has established himself as a leading figure in the fields of intelligent sensing materials and energy conversion materials. His expertise spans various interdisciplinary domains, and his dedication to advancing scientific knowledge has led to numerous high-impact publications and research projects.

Profile

Scopus

Education

Fu Haitao earned his Doctor of Philosophy (Ph.D.) degree from the University of New South Wales, Australia, in 2014. His doctoral studies laid the foundation for his expertise in materials science and engineering, equipping him with the knowledge and skills to contribute significantly to the scientific community.

Experience

Throughout his career, Fu Haitao has actively participated in both academic and industrial research. As a professor and doctoral supervisor, he has mentored numerous students and contributed to the development of innovative materials for various applications. His role as a project leader in multiple national and provincial research initiatives has allowed him to drive advancements in intelligent sensing and energy conversion technologies. He has also been invited to deliver plenary and keynote speeches at prestigious international conferences, further solidifying his reputation in the field.

Research Interest

Fu Haitao’s primary research interests revolve around intelligent sensing materials and energy conversion materials. His work aims to enhance the efficiency and functionality of materials used in sensing applications and energy-related technologies. By integrating advanced material properties with innovative engineering solutions, he seeks to develop next-generation technologies that address global challenges in energy sustainability and intelligent sensing systems.

Awards and Recognitions

Fu Haitao has been recognized for his outstanding contributions to scientific research. His achievements include funding from the National Natural Science Foundation of China for two major projects, along with grants for four additional research projects at the provincial and ministerial levels. These accolades reflect the significance of his work and the impact it has had on the scientific and engineering communities.

Selected Publications

Fu Haitao has published over 100 papers in renowned SCI journals. Below are some of his notable publications along with the journals and citations they have received:

“CFD-DEM study on the raceway transport phenomena and thermo-chemical behaviors in a three-dimensional blast furnace: Effects of process parameters” (2024) – 1 citation

“Constructing asymmetric-electron-density Pd-Zn dual-atoms on N-doped defective mesoporous carbon for electrochemical reduction of CO2” (2024) – 1 citation

“Efficient Schottky heterojunctions of CoP nanoparticles decorated Mn-doped CdS nanorods for photocatalytic hydrogen evolution by water splitting” (2024) – 1 citation

“Band Alignment Tuning via the Facets of CdS Nanocrystals with g-C3N4 for Unveiling Their Enhanced Photocatalytical Property” (2024) – 10 citations

“In-Situ Sulfurization Synthesis of Three-Dimensional Porous CoMoS/CMF Catalysts for Thiophene Hydrodesulfurization” (2024) – 2 citations

Conclusion

Given his outstanding contributions, strong publication record, impactful research, and international recognition, Professor Fu Haitao is an ideal candidate for the Best Researcher Award. His work not only advances scientific knowledge but also inspires future researchers, making him a beacon of excellence in the academic world.

Armand Tchakounte Ngoungue | Wastewater treatment | FRP Excellence in Water Treatment Solutions Award

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Dr. Armand Tchakounte Ngoungue | Wastewater treatment | FRP Excellence in Water Treatment Solutions Award

researcher at Department of Chemistry, Faculty of Science, University of Douala, Cameroon

Tchakounte Armand is an esteemed researcher in the field of inorganic chemistry, specializing in waste recycling, nano zerovalent iron synthesis, and wastewater treatment. With a strong academic foundation and extensive research experience, he has made significant contributions to the development of sustainable materials. His work focuses on innovative methods for immobilizing toxic waste and optimizing absorbents for industrial applications. Armand has also been actively involved in teaching and research at the University of Douala, Cameroon, shaping the next generation of scientists.

Profile

ORCID

Education

Armand obtained his PhD in Inorganic Chemistry from the University of Douala, Cameroon, in 2022. His doctoral research focused on the simultaneous adsorption of methylene blue and nickel ions using activated clay-supported nano zerovalent iron synthesized with green tea extract. Prior to his PhD, he earned an MSc in Physical Chemistry from the same university in 2018 and a BSc in Physical Chemistry from the University of Dschang in 2013. His academic journey began with a strong foundation in science and mathematics, completing his Baccalauréat in 2010.

Experience

Since 2018, Armand has been actively engaged in teaching and research at the University of Douala. He has been temporarily attached to both the Faculty of Science and the National Higher Polytechnic School, contributing to academic instruction and research supervision. In addition, since 2019, he has served as a temporary teacher at College Alfred Saker in Douala. His practical experience includes an internship at the CIMAF laboratory in Douala, where he gained hands-on expertise in material science and industrial processes.

Research Interests

Armand’s research revolves around sustainable materials and environmental remediation. His primary interests include:

  • Recycling waste into sustainable precast materials
  • Synthesizing nano zerovalent iron for environmental applications
  • Immobilization of toxic waste to prevent environmental contamination
  • Developing advanced absorbents for wastewater treatment

His research aims to bridge the gap between industrial needs and environmental sustainability by proposing cost-effective and eco-friendly solutions.

Awards

Armand’s innovative research has earned him recognition in academic and scientific circles. While his specific awards are not listed, his work has been featured in reputable scientific journals, highlighting his contributions to sustainable materials and environmental chemistry. His nominations for research excellence reflect the impact of his studies on waste recycling and adsorption technologies.

Publications

Armand has authored several high-impact publications, contributing to advancements in environmental chemistry. Below are some of his notable works:

  1. Lenou, I., Tchakounte, A., et al. (2024). Optimization of porous volcanic ash-based geopolymer for crystal violet adsorption using the Box-Behnken design. Canadian Journal of Chemistry.

    • Cited by: Various studies on adsorption materials

  2. Tchakounte, A., Lenou, I., et al. (2024). RSM-CCD design of volcanic ash/rice husk ash-based phosphate geopolymer for crystal violet adsorption. Scientific Reports, 14(1), 29422.

    • Cited by: Research on geopolymer materials

  3. Tchakounte, A., Kede, C., et al. (2024). Adsorption of nickel (II) from aqueous solutions with clay-supported nano-scale zero-valent iron synthesized from green tea extract. Desalination and Water Treatment, 320, 100771.

    • Cited by: Studies on water purification techniques

  4. Sidjou, A. S., Tchakounte, A. N., et al. (2023). Synthesis of alkali-activated volcanic scoria and rice husk ash-based composite materials for adsorptive removal of crystal violet. Hybrid Advances, 4, 100113.

    • Cited by: Waste-derived adsorbents research

  5. Tchakounte, A. N., Ateba, B. A., et al. (2021). Simultaneous Removal of Methylene Blue and Nickel Ions in Aqueous Solution Using Natural Clay. Journal of Applied Surfaces and Interfaces, 9(1-3).

    • Cited by: Studies on natural clay adsorbents

  6. Asseng, M. C., Dzoujo, H. T., et al. (2020). Batch studies for the removal of methyl orange from water using regenerated activated carbons. Journal of Materials Science and Engineering B, 10(3), 109-123.

    • Cited by: Water treatment methodologies

  7. Tchakounte, A. N., Poumve, H. Z., et al. (2019). Calcareous-support nanoscale Zero-valent iron: New findings on adsorption of Cr (VI) in aqueous solution. Journal of Applied Surfaces and Interfaces, 6(1-3).

    • Cited by: Research on nanoscale iron for heavy metal removal

Conclusion

Considering Dr. Armand’s academic background, research expertise, and significant contributions to water treatment technologies, he is a highly suitable candidate for the Research for FRP Excellence in Water Treatment Solutions Award. His work aligns with the award’s objectives, emphasizing sustainable and innovative solutions for water purification.

Grażyna Łaska | FRP in Health & Medicine | Best Researcher Award

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Assoc. Prof. Dr. Grażyna Łaska | FRP in Health & Medicine | Best Researcher Award

Professor at Politechnika Białostocka, Poland

Grażyna Łaska is a distinguished Associate Professor specializing in biological sciences with a strong focus on environmental protection and plant ecology. Over the course of her career, she has significantly contributed to the understanding of plant communities, biodiversity conservation, and the ecological impact of human activities. Her research spans a wide range of topics, including secondary metabolites, ecological networks, and conservation strategies. She has held several key administrative and academic roles, influencing both national and international research collaborations.

Profile

ORCID

Education

Grażyna Łaska’s academic journey began with an MSc in Biology from Warsaw University, where she graduated with honors in 1988. She pursued a Ph.D. in biological sciences at Adam Mickiewicz University in Poznań, which she completed in 1993. Her research excellence led to her habilitation in 2008, and she was subsequently promoted to Associate Professor at Białystok University of Technology in 2013. Her academic background laid a strong foundation for her future research in environmental protection and plant ecology.

Experience

She started her academic career as an assistant at the Department of Sozology at Białystok University of Technology in 1988. By 1993, she was promoted to Assistant Professor, a role she held for 20 years. In 2013, she became an Associate Professor in the Department of Environmental Protection and Management. Alongside her teaching responsibilities, she has served in various administrative roles, including Vice-Chancellor for Teaching and Student Affairs (2012–2016) and Coordinator of an international research project (2015–2018). She also directed a major research project funded by the Polish Ministry of Science and Higher Education.

Research Interests

Her research primarily focuses on plant ecology, biodiversity conservation, and secondary metabolites. She has studied the adaptation strategies of plants, particularly in wetland and forest habitats, and the ecological consequences of environmental changes. She has also contributed significantly to pharmacognosy, working on the pharmaceutical properties of plant-based secondary metabolites. Her interdisciplinary approach combines ecological research with applications in environmental protection and sustainable development.

Awards and Recognition

Grażyna Łaska has received numerous awards for her contributions to research and education. In 2011, she was honored with the Medal of the National Education Commission. Additionally, she has been the recipient of multiple individual and team Rector’s Awards between 2010 and 2016. Her mentorship has also been recognized, as she has supervised multiple Ph.D. students who have made notable contributions to ecological and botanical research.

Selected Publications

Łaska G. (2008). Plant communities in wetland habitats in the Knyszyńska Forest – present state and anthropogenic transformations in the GIS approach. Polish Journal of Environmental Studies, 15: 207-214.

Łaska G. (2011). “Natura 2000” ecological network in the aspect of sustainable development. Ecological Questions, 15: 5-21. DOI: 10.2478/v10090-011-0030-7.

Łaska G. (2014). Ecological consequences of deforestation and afforestation on a post-arable land. Ecological Questions, 20: 9–21. DOI: 10.12775/EQ.2014.012.

Łaska G. (2015). Synanthropization of dendroflora near main roads in Białystok (NE Poland). Biodiversity Research and Conservation, 38: 9-24. DOI: 10.1515/biorc-2015-0013.

Łaska G., Sienkiewicz A., Zjawiony J., Jacob M., Khan S. (2017). Antifungal activity of the root extracts of Pulsatilla patens against Candida glabrata. Acta Poloniae Pharmaceutica. Drug Research, 74(1): 179-185.

Łaska G. (2017). Wind energy and multi-criteria analysis in making decisions on the location of wind farms. Procedia Engineering, 182: 418–424.

Łaska G. (2014). Protection of floristic diversity in the Sajna River valley – in view of the planned construction of a hydroelectric power station in Sarkajmy. J. Water Land Dev., 20: 45–56.

Conclusion

Dr. Grażyna Łaska’s remarkable contributions to biological sciences, her leadership in research and academia, and her international collaborations position her as an outstanding candidate for the Best Researcher Award. Her extensive publication record, patents, and dedication to mentoring the next generation of researchers make her a deserving recipient of this prestigious recognition.

Wenjie Li | health communication | Best Researcher Award

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Dr. Wenjie Li | health communication | Best Researcher Award

Lecturer at Xinhua College of Sun Yat-sen University, China

Wenjie Li is a distinguished academic and researcher specializing in health communication and digital media. With a profound dedication to bridging the gap between public health initiatives and digital innovation, she has contributed significantly to improving digital health resources for underserved communities. Her research explores the role of emerging media technologies in shaping health communication strategies, ensuring inclusivity and accessibility in digital healthcare solutions. Through her academic journey, spanning multiple countries, and professional experience in research and teaching, Wenjie has established herself as an influential voice in the field.

Profile

ORCID

Education

Wenjie Li’s academic pursuits have been defined by excellence and an interdisciplinary approach. She obtained her Doctor of Philosophy in Communication Studies from Auckland University of Technology (AUT), New Zealand, where she focused on developing communication strategies for effective pandemic responses using mobile applications. Her research was supported by prestigious awards, including the AUT Doctoral Fee Scholarship and the AUT Summer Scholarship. Prior to this, she earned her Master of Corporate Communication from Universiti Putra Malaysia (UPM), where she specialized in statistics for communication research, crisis communication, integrated marketing strategies, and brand communication. She began her academic journey at the North China Institute of Science and Technology (NCIST), where she obtained a Bachelor of Arts in Journalism, laying a strong foundation in news reporting, new media technology, and digital communication strategies.

Experience

Wenjie Li has amassed extensive experience in academia and research, contributing both as an educator and a scholar. Currently, she serves as a Lecturer at Xinhua College of Sun Yat-sen University, where she teaches courses on journalism, internet and new media, and communication psychology. She has also mentored students in their thesis projects, guiding them in academic research and writing.

Beyond teaching, Wenjie has played an instrumental role as a research assistant at Auckland University of Technology, where she contributed to projects on Islamophobia in media and the impact of journalism algorithms on public interest. She also collaborated with the Media Diversity Institute in the UK on inclusive journalism research. Her industry experience includes working as a CEO Assistant at Shenzhen Homer Technology and as a Censorship Editor for UDrive Media in Malaysia. Additionally, her tenure as an intern at UNAIDS China further solidified her expertise in health advocacy and communication.

Research Interests

Wenjie Li’s research primarily revolves around the intersection of health communication and digital media. She explores how digital platforms can enhance health communication, with a particular focus on vulnerable populations. One of her notable research contributions includes an in-depth study of HIV-related features in social media dating apps for men who have sex with men (MSM), highlighting the role of digital media in public health awareness and intervention. Her work aims to foster inclusivity, ensuring that digital health resources are both accessible and equitable. Additionally, her research delves into crisis communication, new media strategies, and the psychological impact of digital communication on health-related behaviors.

Awards and Recognitions

Throughout her career, Wenjie Li has been the recipient of numerous awards that recognize her academic excellence and research contributions. She was awarded the AUT Doctoral Fee Scholarship, a prestigious grant supporting outstanding PhD candidates at Auckland University of Technology. She also received the AUT Summer Scholarship for her contributions to health communication research. Additionally, her volunteering efforts were recognized when she was named an Outstanding Volunteer at the China International Fair for Trade in Services for two consecutive years.

Publications

Wenjie Li has contributed to several high-impact journals, focusing on health communication, media diversity, and digital innovation. Some of her notable publications include:

Li, W. (2023). Digital Health Resources and Inclusive Communication Strategies for Vulnerable Populations. Journal of Health Communication, 28(3), 124-139. (Cited by 18 articles)

Li, W. (2022). Islamophobia in the Media: A Case Study of New Zealand’s Digital Platforms. Media and Society Review, 35(4), 198-212. (Cited by 12 articles)

Li, W. (2021). Crisis Communication and Digital Media: Strategies for Pandemic Response. International Journal of Crisis Communication, 17(2), 89-105. (Cited by 15 articles)

Li, W. (2020). HIV Awareness in MSM Social Media Dating Apps: A Digital Health Perspective. Public Health and Technology, 12(1), 56-72. (Cited by 22 articles)

Li, W. (2019). The Role of Mobile Apps in Health Communication: A User Behavior Analysis. Digital Media & Society, 10(3), 145-160. (Cited by 10 articles)

Conclusion

Wenjie Li’s research has had a profound impact on the fields of health communication and digital media. Her innovative work in developing digital health resources, coupled with her extensive academic and professional experience, highlights her commitment to advancing public health communication. Her contributions have not only shaped academic discourse but have also influenced real-world applications in digital health strategies. Given her achievements, Wenjie Li is highly deserving of the Best Researcher Award, recognizing her as a leader and innovator in the field.

Ling Sun | Cellulose Fiber | Best Researcher Award

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Assoc. Prof. Dr. Ling Sun | Cellulose Fiber | Best Researcher Award

Associate Professor Dr. Ling Sun, Beijing University of Technology, China

Profiles:

Current Position 👨‍🏫

Dr. Ling Sun is an Associate Professor at Beijing University of Technology (BJUT) in Beijing, China, where he has been part of the faculty since 2015. His role at BJUT enables him to contribute significantly to research in materials science, focusing particularly on low-dimensional carbon materials and their applications in environmental remediation and energy conversion. Through his academic endeavors, Dr. Sun has consistently advanced the frontiers of knowledge in materials science.

Academic Background 🎓

Dr. Sun’s academic journey has been impressive. He earned his Ph.D. in 2013 from Hokkaido University, Sapporo, Japan, a prestigious institution known for its contributions to scientific research. Before that, he obtained his M.En in 2009 from China University of Mining and Technology in Beijing, China. These educational milestones provided him with a strong foundation in materials science, leading to his specialization in carbon-based materials, especially graphene oxide and carbon nanotubes.

Ongoing Research 🔬

Dr. Sun’s research remains at the cutting edge of materials science, with a particular focus on low-dimensional carbon materials such as graphene oxide and carbon nanotubes. His ongoing projects investigate their applications in environmental remediation and energy conversion, which are critical areas in addressing global sustainability challenges. Through in situ reduction methods and innovative surface modifications, he seeks to enhance the effectiveness of these materials in water purification, energy storage, and conversion technologies.

Research Interests 🔍

  • Low-dimensional carbon material fabrication & composition: This includes the synthesis and characterization of materials like graphene oxide and carbon nanotubes.
  • Carbon-based environmental remediation: The development of carbon-based materials for the removal of pollutants from water and air.
  • Energy conversion: Exploring the use of carbon-based materials in the development of more efficient and sustainable energy systems, such as batteries and fuel cells. His work integrates nanomaterials with environmental and energy challenges, contributing to the growing field of green technology.

Scholarships and Awards 🏆

Dr. Sun has received numerous research grants and scholarships throughout his career, including support from the National Natural Science Fund of China and the Beijing Municipal Education Commission Science and Technology Plan. These recognitions highlight the importance of his research and the potential impact of his findings on both national and global scales.

Bioinformatics and Professional Associations 🔬

Dr. Sun is an active member of several professional organizations that facilitate collaboration and knowledge exchange in his field. Notably, he is part of the China Technology Innovation Alliances of Bio-detection and Bio-monitoring and the Nano Biomedical Society, Japan. These affiliations provide him with access to the latest developments in bioengineering and nanotechnology, which are crucial for advancing his research.

Training & Workshops 👩‍🔬

Throughout his career, Dr. Sun has organized and participated in numerous workshops and training courses aimed at enhancing the research capabilities of his peers and students. These events focus on advanced material synthesis techniques and their applications in environmental and energy fields. His commitment to training the next generation of scientists is evident in his extensive mentoring of graduate students and postdoctoral researchers.

Oral Presentations 🗣️

Dr. Sun has been an active presenter at several prestigious international conferences. His oral presentations on graphene oxide and carbon nanotubes have been well-received, showcasing his leadership in the materials science community. These presentations allow him to share his latest findings and collaborate with other experts in the field.

Tasks Completed as a Researcher 🔬

As a researcher, Dr. Sun has completed a variety of tasks that contribute to his reputation as a leading expert in his field. His work involves laboratory experiments, data analysis, and theoretical modeling, all aimed at understanding the properties of carbon-based materials. He has also been involved in the development of novel materials for energy storage devices and environmental applications.

Success Factors 🌟

Dr. Sun’s success as a researcher can be attributed to his innovative approach to material synthesis, his interdisciplinary knowledge, and his dedication to addressing global environmental challenges. His work continues to inspire colleagues and students alike, fostering a collaborative research environment at BJUT.

Publications & Laboratory Experience 🧪

With over 40 published articles in high-impact journals, Dr. Sun’s research has made significant contributions to the understanding of carbon-based materials. His laboratory experience, combined with his expertise in materials characterization techniques, has enabled him to explore the vast potential of materials like graphene oxide in a variety of applications.

📖Publications:

Paper Title: Alkaline–Acidic Sodium Chlorite Pretreatment of Bamboo Powder for Preparation of Excellent Mechanical, Transparent, and Biodegradable Films

  • Authors: Wang, J., Sun, L., Chu, Y.-Y., Han, C.-B., Yan, H.
  • Journal: Polymers
  • Year: 2024

Paper Title: Carbon Nanotube Films with Fewer Impurities and Higher Conductivity from Aqueously Mono-Dispersed Solution via Two-Step Filtration for Electric Heating

  • Authors: Chu, Y., Sun, L., Wang, J., Han, C., Yan, H.
  • Journal: Nanomaterials
  • Year: 2024

Paper Title: States of graphene oxide and surface functional groups amid adsorption of dyes and heavy metal ions

  • Authors: Han, Z., Sun, L., Chu, Y., Yan, H., Song, X.
  • Journal: Chinese Journal of Chemical Engineering
  • Year: 2023

Paper Title: Electro-injection-enhanced catalytic formaldehyde degradation based on conductive MnOx cellulose aerogels at room temperature

  • Authors: Fang, D.C., Zheng, J.Y., Han, C.B., Wang, X., Yan, H.
  • Journal: Applied Catalysis B: Environmental
  • Year: 2023

Paper Title: Surface modification methods and mechanisms in carbon nanotubes dispersion

  • Authors: Gao, C., Guo, M., Liu, Y., Terrones, M., Wang, Y.
  • Journal: Carbon
  • Year: 2023

 

Javad Foroughi | Smart Materials | Best Researcher Award

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Prof. Dr. Javad Foroughi | Smart Materials | Best Researcher Award

Professor Doctorate at The University of New South Wales, Australia

Profiles:

🏢Current Position

Dr. Foroughi currently serves as a Senior Research Fellow in the School of Mechanical and Manufacturing Engineering, Faculty of Engineering, University of New South Wales (UNSW), a position he has held since October 2021. Additionally, he is an Honorary Senior Research Fellow in the Faculty of Engineering and Information Sciences and a Visiting Professor in the Department of Thoracic and Cardiovascular Surgery, University of Essen, Germany.

🎓 Academic Background

Dr. Javad Foroughi’s academic journey began with an exceptional foundation in Polymer Materials Science. He earned his BSc and MSc degrees in Engineering from Isfahan University of Technology, Iran (1991–1997). Pursuing his passion for innovative materials, he completed his PhD in Material Engineering (2006–2009) at the University of Wollongong, Australia. His doctoral work spanned across the Faculty of Engineering’s School of Biomedical, Materials and Mechatronic Engineering and the Department of Chemistry’s Intelligent Polymer Research Institute, equipping him with interdisciplinary expertise in polymer materials.

📚 Publication Achievements

Dr. Foroughi has made remarkable contributions to scientific literature, with top-cited articles in leading journals like Advanced Materials Technologies. 

  • “Wearable Electronic Textiles from Nanostructured Piezoelectric Fibers”, recognized as a top-cited paper (2020–2021).
  • Editor’s Choice article, “Actuator Materials: Review on Recent Advances and Future Outlook for Smart Textiles” (2019).
  • His groundbreaking work, “Smart Fabrics and Networked Clothing”, earned a Best Impacts Award from the IEEE Consumer Electronics Magazine in 2017.

🔬 Ongoing Research

  • Smart textiles and wearable technologies: Exploring innovative materials to create advanced wearable electronic systems.
  • Piezoelectric nanostructured fibers: Developing nanomaterials with enhanced functionality for biomedical and technological applications.
  • Artificial muscles: Revolutionizing the field of soft robotics through the creation of actuators derived from fishing lines and other unconventional materials.

🔍 Research Interests

  • Polymer materials science
  • Nanotechnology
  • Advanced electromaterials
  • Biomedical applications of smart textiles

🏆 Scholarships and Awards

  • ARC Discovery Early Career Researcher Award Fellowship (2013–2016).
  • Emerging Research Fellow, Illawarra Health and Medical Research Institute (IHMRI).
  • R&D 100 Gold Award (2015) for Artificial Muscles.
  • Asia Nanotech Camp Fellowship (2009, Taiwan).
  • Commercialization Training Scheme Scholarship, University of Wollongong (2009).

🧬 Bioinformatics

While his primary focus lies in polymer and nanomaterials, Dr. Foroughi’s interdisciplinary work occasionally intersects with bioinformatics, particularly in the design and analysis of biomaterials for healthcare.

🌐 Professional Associations

Dr. Foroughi is actively engaged in professional networks, including associations that foster collaboration in materials science and engineering.

📋 Training & Workshops

Dr. Foroughi has participated in numerous workshops and training programs, notably at prestigious institutions like the Alan G. MacDiarmid NanoTech Institute and the National Creative Research Initiative Centre for Bio-Artificial Muscle.

🎤 Oral Presentations

As an expert in his field, Dr. Foroughi has delivered engaging oral presentations at international conferences, sharing his innovative findings on smart textiles, nanomaterials, and artificial muscles.

🛠️ Tasks Completed as a Researcher

  • Development of wearable electronic textiles.
  • Pioneering artificial muscle technology.
  • Securing over $7 million in competitive research grants from entities like the Australian Research Council.

🌟 Success Factors

  • Interdisciplinary expertise across engineering, chemistry, and materials science.
  • Strong collaboration with global institutions, including universities in Germany, South Korea, and the United States.
  • Exceptional leadership in groundbreaking research projects.

🧪 Publications & Laboratory Experience

Dr. Foroughi’s laboratory experience includes advanced fabrication techniques for nanomaterials and polymers, contributing to high-impact publications and patents. His research has not only advanced scientific knowledge but also translated into commercialized technologies.

🌏 Impact and Legacy

Dr. Foroughi’s contributions to polymer materials and smart textiles have set new benchmarks in engineering and healthcare. His work continues to inspire researchers and pave the way for innovations in wearable technology and bioengineering.

📖Publications:

Paper Title: Advanced Energy Harvesters and Energy Storage for Powering Wearable and Implantable Medical Devices

  • Authors: Gao, Z.; Zhou, Y.; Zhang, J.; Wang, Z.L.; Wang, C.H.
  • Journal: Advanced Materials
  • Year: 2024

Paper Title: Highly Stretchable Nanocomposite Piezofibers: A Step Forward into Practical Applications in Biomedical Devices

  • Authors: Mokhtari, F.; Nam, H.Y.; Ruhparwar, A.; Wang, C.H.; Foroughi, J.
  • Journal: Journal of Materials Chemistry B
  • Year: 2024

Paper Title: Contactless Vital Sign Monitoring Systems: A Comprehensive Survey of Remote Health Sensing for Heart Rate and Respiration in Internet of Things and Sleep Applications

  • Authors: Raheel, M.S.; Tubbal, F.; Raad, R.; Odeh, N.; Foroughi, J.
  • Journal: Sensors and Diagnostics
  • Year: 2024

Paper Title: Manufacturing Ulvan Biopolymer for Wound Dressings

  • Authors: Foroughi, J.; Ruhparwar, A.; Aloko, S.; Wang, C.H.
  • Journal: Macromolecular Materials and Engineering
  • Year: 2024

Paper Title: Ab Initio Calculations of Structural, Electronic, Optical, and Magnetic Properties of Delafossite SMoO2 (S = Na, K, Rb, Cs) for Spintronics

  • Authors: Ismail, K.; Parveen, A.; Zia, A.; Abbas, S.M.; Foroughi, J.
  • Journal: Applied Physics A: Materials Science and Processing
  • Year: 2023