Anas Abdelrahman | Engineering and Technology | Best Researcher Award

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Dr. Anas Abdelrahman | Engineering and Technology | Best Researcher Award

Dr. Anas Abdelrahman | Engineering and Technology | Assistant Professor of Mechanical Engineering | Egypt

Dr. Anas Mohamed Abdelrahman is an accomplished Assistant Professor of Mechanical Engineering at Future University in Egypt and a Post-Doctoral Fellow at Zhejiang University China. He holds a PhD in Thermal Power Engineering from Huazhong University of Science and Technology, and his research spans advanced topics such as hydrogen energy, cryogenics, thermal management, machine learning applications, and renewable energy systems. With over 20 publications in prestigious international journals, Dr. Abdelrahman has made significant contributions to intelligent modeling and optimization in energy systems. He has been recognized with multiple academic excellence awards and serves as a peer reviewer for top-tier journals, reflecting his academic influence. His international academic engagements and mentorship of engineering students demonstrate a commitment to both research and education, positioning him as a forward-looking and impactful researcher in the global mechanical and energy engineering community.

Professional Profile 

Education  

Dr. Anas Mohamed Abdelrahman has a strong academic foundation in mechanical and thermal engineering. He is currently a post-doctoral fellow at both Zhejiang University (ZJU) and Hangzhou City University (HZCU) in China, focusing on energy and cryogenic research. He earned his PhD in Thermal Power Engineering from the Department of Refrigeration and Cryogenics at Huazhong University of Science and Technology (HUST), Wuhan, China, where his research emphasized artificial intelligence modeling and scaling analysis for thermoacoustic systems. Prior to that, he completed his MSc in Design and Production Engineering at Ain Shams University, Cairo, Egypt, with a thesis centered on intelligent techniques in the wire EDM process. He also holds a BSc in Mechanical Power Engineering from Ain Shams University, graduating with a “Very Good” grade and an “Excellent” graduation project on central air conditioning system design. His academic journey reflects a continuous pursuit of interdisciplinary innovation in energy and thermal systems.

Professional Experience

Dr. Anas Mohamed Abdelrahman has amassed extensive professional experience in both academia and industry. He has been a faculty member in the Mechanical Engineering Department at Future University in Egypt (FUE), where he currently serves as an Assistant Professor. In parallel, he is a post-doctoral research fellow at Zhejiang University (ZJU) and Hangzhou City University (HZCU) in China, contributing to advanced research in cryogenics and hydrogen energy. He also held a short-term instructional position at the Public Authority for Applied Education and Training (PAAET) . Earlier in his career, he worked as a Production Planning Engineer at Elsewedy Cables Company in Cairo, Egypt. Dr. Abdelrahman’s career demonstrates a solid blend of teaching, research, and industrial expertise, with a focus on applying advanced thermal and energy systems research to real-world engineering challenges.

Research Interest

Dr. Anas Mohamed Abdelrahman’s research interests are deeply rooted in the fields of energy, thermal sciences, and intelligent engineering systems. His work spans a wide range of topics, including refrigeration and cryogenics, hydrogen energy, energy storage systems, and multilayer insulation materials. He is particularly focused on the application of artificial intelligence and machine learning for intelligent modeling and optimization in thermal and fluid systems. His research also explores thermoacoustics, pulsating heat pipes, heat transfer enhancement, waste heat recovery, and fluid-solid interactions. Additionally, he is actively involved in renewable energy applications such as solar energy management, solar chimney systems, and thermal management of electronic devices. Through this multidisciplinary approach, Dr. Abdelrahman aims to develop innovative, energy-efficient, and sustainable engineering solutions for emerging global challenges.

Award and Honor

Dr. Anas Mohamed Abdelrahman has received numerous awards and honors in recognition of his academic excellence and research contributions. He was honored with the Post-Doctoral Talent Recognition Certificate by Zhejiang University in China and received several Outstanding Academic Achievement Awards during his MSc, PhD, and undergraduate studies from institutions including Future University in Egypt and Huazhong University of Science and Technology (HUST), China. His PhD work also earned him the Outstanding Academic Excellence Award in Scientific Research at HUST, along with an honorary recognition for international PhD graduates. Additionally, Dr. Abdelrahman has been acknowledged for his service as a peer reviewer for leading international journals such as Applied Energy, International Journal of Hydrogen Energy, Energy, The Journal of the Acoustical Society of America, and Thermal Science and Engineering Progress, receiving honorary certificates . These accolades reflect his dedication to advancing engineering science and his standing in the global research community.

Publications Top Noted

Prediction of output power with artificial neural network using extended datasets for Stirling engines
Year: 2020 | Cited by: 61

Prediction of oscillatory heat transfer coefficient for a thermoacoustic heat exchanger through artificial neural network technique
Year: 2018 | Cited by: 59

Single-objective optimization for stack unit of standing wave thermoacoustic refrigerator through fruit fly optimization algorithm
Year: 2019 | Cited by: 27

Prediction of acoustic wave parameters of thermoacoustic prime mover through artificial neural network technique: Practical approach for thermoacoustics
Year: 2018 | Cited by: 15

Prediction of cooling load for a standing wave thermoacoustic refrigerator through artificial neural network technique
Year: 2017 | Cited by: 15

Prediction of pressure evolution in non-venting self-pressurized liquid hydrogen tanks using artificial neural network approach
Year: 2024 | Cited by: 10

Single-objective Optimization for Stack Unit of Standing Wave Thermoacoustic Refrigerator through Particle Swarm Optimization Method
Year: 2019 | Cited by: 10

Experimental and theoretical study on the optimal placement of reflective shield in multilayer insulation systems
Year: 2025 | Cited by: 3

IMPROVED PREDICTIONS OF ONSET TEMPERATURE IN TWIN THERMOACOUSTIC HEAT ENGINE BY NEURAL NETWORK BASED CALIBRATED THERMOACOUSTIC MODEL
Year: 2019 | Cited by: 3

Solar Chimney Power Plants: A Mini Review
Year: 2022 | Cited by: 2

Conclusion

Dr. Anas Mohamed Abdelrahman is highly suitable for the Best Researcher Award, particularly in fields related to mechanical engineering, energy systems, cryogenics, and intelligent modeling.

Justyna Zywiolek | Social Sciences | Social Sciences Excellence Award

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Assist. Prof. Dr. Justyna Zywiolek | Social Sciences | Social Sciences Excellence Award

Assist. Prof. Dr. Justyna Zywiolek | Social Sciences | Assistant professor | Czestochowa University of Technology | Poland

Dr. Justyna Żywiołek is a distinguished Polish academic and researcher specializing in management science, with a strong focus on knowledge and information management, cybersecurity, and digital transformation. She earned her Ph.D. with honors from the Lodz University of Technology and currently serves as an Associate Professor at the Faculty of Management, Częstochowa University of Technology. With over 160 publications and several editorial roles in high-impact journals, she has significantly contributed to the understanding of data protection, innovation in education, sustainable development, and the intersection of technology and social systems. Dr. Żywiołek is a certified ISO 27001:2018 Lead Auditor and an active member of international organizations such as ICAA and EU-OSHA. Her global academic involvement through Erasmus+ programs and conference presentations underscores her commitment to cross-border collaboration and the advancement of socially impactful research.

Professional Profile

Education

Dr. Justyna Żywiołek completed her master’s studies in the field of Metallurgy before pursuing a doctoral degree in management science with a specialization in security science at the Lodz University of Technology. Her Ph.D. research focused on the impact of information process management on the security of knowledge resources in enterprises. She has also completed professional training as a certified ISO 27001 Lead Auditor, enhancing her expertise in information security and management systems. Her educational background reflects a unique interdisciplinary blend of technical and managerial knowledge, forming the foundation for her impactful academic and research career.

Professional Experience

Dr. Justyna Żywiołek serves as an Associate Professor at the Faculty of Management at Częstochowa University of Technology, where she is actively involved in teaching, supervising research projects, and publishing scientific work. She has developed a strong professional profile in knowledge and information management, with a particular focus on data protection and information security. In addition to her academic role, she works as a personal data protection inspector and is a certified lead auditor for ISO 27001, aligning her theoretical expertise with practical applications. Her experience includes active participation in international academic exchanges through Erasmus+ programs and contributing to global scholarly dialogue as a guest editor and editorial board member for several high-impact journals.

Research Interest

Dr. Justyna Żywiołek’s research interests lie at the intersection of management science, information security, and digital transformation. She focuses on knowledge and information management within organizations, with a particular emphasis on protecting data and intellectual assets. Her work explores themes such as cybersecurity, data privacy, trust in digital systems, and the strategic use of information in enterprise environments. Additionally, she investigates the societal implications of emerging technologies, including smart cities, renewable energy awareness, and the digitalization of education and healthcare systems. Through her interdisciplinary approach, Dr. Żywiołek aims to address contemporary challenges in both organizational efficiency and social sustainability.

Award and Honor

Dr. Justyna Żywiołek has received numerous recognitions and honors for her significant contributions to the fields of management science and information security. She has been invited to serve as a Guest Editor for prestigious journals such as Energies, International Journal of Environmental Research and Public Health, and Computer Modeling in Engineering & Sciences. Additionally, she holds editorial positions on the Early Career Editorial Board of The Journal of Strategic Information Systems and the Editorial Advisory Board of the International Journal of Management and Applied Research. Her active participation in international conferences, collaborative research projects, and academic mobility programs has further highlighted her role as a respected researcher on a global scale. These accolades reflect her leadership, academic excellence, and ongoing commitment to advancing interdisciplinary research with real-world impact.

Publications Top Notes

Exploring Ecoluxury: Consumer Attitudes Towards Energy-Efficient Technologies and Sustainable Living

From Traditional to Digital: The Paradigm Shift in the Energy Sector Through Green Innovation

Navigating Supply Chain Turbulence: Leveraging Modern Technologies for Safety, Resilience, and Risk Reduction

Unlocking Renewable Energy Potential: Overcoming Knowledge Sharing Hurdles in Rural EU Regions on Example of Poland, Sweden, and France

Trust in Influencers – Using SERVQUAL to Achieve the Effect of Managing the Hate Mechanism

Conclusion

Dr. Justyna Żywiołek is a strong and deserving candidate for the Social Sciences Excellence Award. Her prolific publication record, interdisciplinary expertise, global academic collaborations, and alignment of research with pressing societal issues (cybersecurity, sustainable development, digitalization in education and healthcare) make her a standout figure in applied social sciences. With minor enhancements in visibility metrics and broader disciplinary framing, she would further solidify her position as a global leader in social sciences research and practice.

 

 

Fernanda Barbosa Lopes | Biology and Life Sciences | Best Researcher Award

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Dr. Fernanda Barbosa Lopes | Biology and Life Sciences | Best Researcher Award

Researcher and Biology Teacher | Federal University of Vicosa | Brazil

Dr. Fernanda Barbosa Lopes is a Brazilian biologist with a diverse and accomplished background in biological sciences, education, and environmental health. She holds a PhD in Cellular and Structural Biology and an MSc in Animal Biology , both from the Federal University of Viçosa, where she conducted notable research on OxInflammation in wound healing and reptilian digestive morphology. With over a decade of university-level teaching experience, she has excelled in delivering both theoretical and practical instruction in subjects such as microbiology, physiology, cytology, and biochemistry. Her professional journey also includes significant roles in clinical laboratory analysis, environmental impact management, and health waste processing. Dr. Lopes has completed multiple postgraduate specializations in inclusive education, clinical analysis, school supervision, and biology teaching methodologies. Passionate about applied science and community engagement, she combines academic rigor with real-world impact, making her a strong candidate for recognition in interdisciplinary and educational research excellence.

Professional Profile 

Education  

Dr. Fernanda Barbosa Lopes has a rich and interdisciplinary educational background spanning biological sciences, education, and environmental studies. She earned her PhD in Cellular and Structural Biology and MSc in Animal Biology from the Federal University of Viçosa, with research focusing on OxInflammation in wound healing and reptilian digestive morphology, respectively. Her foundational degree is a Bachelor’s in Biological Sciences from Faculdade Santa Marcelina. Complementing her scientific training, she has pursued multiple postgraduate specializations, including Clinical Analysis, Inclusive and Special Education, Teaching Methodology in Biology and Chemistry, School Management and Supervision, and more. She also completed a second undergraduate degree in Geography and began her academic journey with a technical certification in Clinical Pathology. This diverse academic portfolio reflects her commitment to both scientific excellence and educational development.

Professional Experience

Dr. Fernanda Barbosa Lopes brings over two decades of diverse professional experience spanning higher education, laboratory science, and environmental health. She has served as a university professor at institutions such as UNIPAC and IPSEC, teaching core subjects like physiology, cytology, genetics, microbiology, and biochemistry, while also applying active learning methodologies such as Problem-Based Learning (PBL). In the public education sector, she worked with the State Department of Education of Minas Gerais, delivering biology and science instruction across municipal and state networks. Her laboratory career includes roles as a clinical laboratorist and technical analyst at the Centro Brasileiro de Oncologia and BIOCESP, where she conducted complex diagnostics in hematology, microbiology, and parasitology. She also held managerial roles in healthcare waste management, overseeing sustainability initiatives and environmental compliance. Her professional path highlights a strong integration of academic, clinical, and environmental expertise, with consistent dedication to education, research, and public health.

Research Interest

Dr. Fernanda Barbosa Lopes has a broad and interdisciplinary research interest rooted in cellular biology, physiology, and environmental health. Her primary focus lies in understanding the mechanisms of inflammation and oxidative stress (OxInflammation) in the context of wound healing, with particular interest in the therapeutic potential of medicinal plants such as Commiphora leptophloeos. She is also engaged in the comparative morphology and physiology of vertebrates, having studied the digestive systems of reptiles and the role of enteroendocrine cells. Her background includes interest in microbiological resistance, clinical diagnostics, and sustainable health practices, reflecting her practical experience in laboratory science and healthcare waste management. Additionally, she explores science education methodologies and inclusive teaching strategies, contributing to the pedagogical advancement of biological sciences. Her research bridges fundamental science with applied biomedical and educational contexts.

Award and Honor

While Dr. Fernanda Barbosa Lopes has not listed specific national or international awards in her curriculum vitae, her academic and professional journey reflects consistent recognition through scholarship support, such as funding from CAPES during her master’s studies, and long-term faculty appointments at respected institutions like UNIPAC and IPSEC. Her trusted roles as a university educator, state education professional, and laboratory manager indicate professional esteem and institutional acknowledgment of her capabilities. Moreover, her repeated invitations to lead classroom instruction, coordinate laboratory procedures, and implement environmental health programs suggest a career marked by respect, reliability, and positive impact in both academic and applied settings. Further formal honors or distinctions may yet complement her contributions as her research and professional visibility continue to grow.

Publications Top Noted

Title: OxInflammatory Responses in the Wound Healing Process: A Systematic Review

Year: 2024

Conclusion

Dr. Fernanda Barbosa Lopes exhibits exceptional interdisciplinary expertise, combining biomedical research, educational innovation, and environmental stewardship. Her academic trajectory is well-rounded, and she shows a deep commitment to advancing biological sciences and community health.

Camilo Jose Cela-Conde | Neuroscience | Best Researcher Award

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Dr. Camilo Jose Cela-Conde | Neuroscience | Best Researcher Award

Dr. Camilo Jose Cela-Conde | Neuroscience |Profesor Emerito | Universidad de las Islas Baleares | Spain

Camilo José Cela-Conde is a distinguished Spanish researcher and academic known for his interdisciplinary contributions to neuroscience, human evolution, and the philosophy of mind. Holding a doctorate in Philosophy from the University of Barcelona, he has served in various esteemed institutions, including the Universidad de las Islas Baleares as Professor Emeritus and the Universidad Complutense de Madrid, where he is an active member of the Cognitive Neuroscience Research Group. His research spans over 230 works, covering topics such as aesthetic cognition, neural networks, and the evolutionary origins of human behavior. Cela-Conde’s international influence is marked by his appointment as a Fellow of the American Association for the Advancement of Science and his affiliation with the Center for Academic Research and Teaching in Anthropogeny at the University of California, San Diego. With a career that bridges science and the humanities, he continues to shape the discourse on how brain function intersects with art, consciousness, and the human condition.

Professional Profile 

Education

Camilo José Cela-Conde pursued his higher education at the University of Barcelona, where he earned both his Licenciado (Bachelor’s) in Philosophy and Letters and later a Doctorate in Philosophy. His academic training laid a strong foundation for his interdisciplinary approach, integrating philosophical inquiry with scientific research. This dual background in the humanities and formal philosophical reasoning has played a critical role in shaping his later work in cognitive neuroscience, neuroaesthetics, and the evolutionary study of the human mind.

Professional Experience

Camilo José Cela-Conde has had a distinguished professional career spanning several decades and institutions across Spain and the United States. He currently serves as a member of the Cognitive Neuroscience Research Group at the Universidad Complutense de Madrid and holds the title of Professor Emeritus at the Universidad de las Islas Baleares. Previously, he was an associate researcher at the Laboratory of Cognitive and Computational Neuroscience at the Universidad Complutense de Madrid, and at the Dr. Pérez Modrego Magnetoencephalography Center. Internationally, he served as a researcher in the Department of Ecology and Evolutionary Biology at the University of California, Irvine. His professional experience reflects a deep engagement with interdisciplinary research in neuroscience, philosophy, and human evolution.

Research Interest

Camilo José Cela-Conde’s research interests lie at the intersection of human evolution, cognitive neuroscience, and the psychology of art. He is particularly focused on understanding how the human brain processes aesthetic experience, exploring the neural correlates of beauty and creativity through studies in neuroaesthetics. Additionally, his work delves into the evolutionary mechanisms that shaped human cognition, including the development of symbolic thinking and cultural expression. He is also interested in how brain networks support consciousness and higher-order mental functions, often integrating perspectives from philosophy, biology, and neuroscience. His interdisciplinary approach aims to bridge the gap between the sciences and the humanities, providing deeper insights into what makes us uniquely human.

Award and Honor

Camilo José Cela-Conde has received notable recognition throughout his career for his contributions to science, philosophy, and interdisciplinary research. Among his most distinguished honors is his election as a Fellow of the American Association for the Advancement of Science, acknowledging his significant achievements in the field of biology and human evolution. In addition, he holds the hereditary title of Marquess of Iria Flavia, passed down from his father, Nobel Prize-winning author Camilo José Cela. Cela-Conde is also a long-standing member of the Center for Academic Research and Teaching in Anthropogeny (CARTA) at the University of California, San Diego, reflecting his ongoing international engagement in evolutionary and cognitive science. These accolades highlight his influential role in bridging the humanities and sciences through groundbreaking research and thought leadership.

Publications Top Noted

  • Teaching‑induced changes in neural networks: Toward a model of the creative universe — Neuroscience Reports, 2025 

  • El camino de nuestra especie — book chapter in Caminos del pensamiento actual: Naturaleza, historia y utopía, 2024. 

  • Noninvasive Brain Stimulation of the Dorsolateral Prefrontal Cortex During Aesthetic Appreciation — book chapter in Brain, Beauty, and Art: Essays Bringing Neuroaesthetics into Focus, 2022. 

  • The Role of Left Dorsolateral Prefrontal Cortices in Aesthetic Valuation — also a book chapter in the same volume (Brain, Beauty, and Art, 2022). 

  • Art and Brain Co-evolution — journal article (co-authored with Francisco J. Ayala), 2018.

Conclusion

Camilo José Cela Conde is a highly distinguished and interdisciplinary researcher with a profound academic legacy in neuroscience, philosophy, and human evolution. His profile fits exceptionally well with the criteria for a lifetime achievement or best researcher award, particularly one that values cross-disciplinary insight and foundational contributions to understanding the human mind.

Zhenyu wang | Experimental Design | Best Research Article Award

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Mr. Zhenyu wang | Experimental Design | Best Research Article Award

PhD Student | State Key Laboratory of Chemistry for NBC Hazards Protection | China

Zhenyu Wang is a dedicated PhD student at the State Key Laboratory of Chemistry for NBC Hazards Protection, specializing in radiation measurement, detector design, and cosmic ray muon imaging. His research contributions include the development of a spatio-temporal Poisson Kriging algorithm for nuclear radiation field reconstruction and the creation of advanced muon imaging detectors. With four publications in reputable SCI-indexed journals and two patents under application, his work bridges theoretical innovation with practical applications in nuclear safety and radiation monitoring. His research demonstrates strong potential for impact in both academic and applied scientific domains, making him a promising candidate for the Best Research Article Award.

Professional Profile 

Education  

Zhenyu Wang is currently pursuing his doctoral studies at the State Key Laboratory of Chemistry for NBC Hazards Protection, where he is engaged in advanced research on radiation detection technologies and radiation field modeling. His academic training has provided a strong foundation in nuclear science, physics, and engineering principles, which he has applied to develop innovative solutions in radiation measurement and imaging. Through his PhD program, he has gained extensive experience in experimental design, simulation modeling, and interdisciplinary collaboration, positioning him as a skilled and forward-thinking researcher in his field.

Professional Experience

Zhenyu Wang has gained valuable professional experience through his ongoing doctoral research at the State Key Laboratory of Chemistry for NBC Hazards Protection. His work focuses on the development and optimization of radiation detectors, including plastic scintillator arrays for muon tomography and gamma detectors enhanced with wavelength-shifting fibers. He has led and contributed to key research projects involving performance simulations, algorithm development, and detector testing. In addition, he has co-authored multiple peer-reviewed articles and contributed to patent applications, demonstrating both scientific rigor and innovation. His professional experience reflects a strong integration of theoretical research and practical application in radiation detection and nuclear safety technologies.

Research Interest

Zhenyu Wang’s research interests lie at the intersection of radiation detection, nuclear safety, and advanced computational modeling. He focuses on developing high-performance radiation detectors, such as plastic scintillator-based muon tomography systems and gamma detectors integrated with wavelength-shifting fibers. A key area of his work involves radiation field reconstruction using novel algorithms, including the spatio-temporal Poisson Kriging method, which captures both spatial and temporal dynamics of radiation fields. He is also deeply interested in cosmic ray muon imaging, leveraging its unique properties for non-invasive detection and security applications. His research aims to advance both the scientific understanding and practical effectiveness of radiation monitoring technologies.

Award and Honor

While currently pursuing his PhD, Zhenyu Wang has already achieved notable recognition through his contributions to high-impact research and innovation. His work has led to the publication of multiple papers in esteemed SCI-indexed journals and the application for two patents, reflecting both academic excellence and inventive capability. His selection for participation in major research projects at the State Key Laboratory of Chemistry for NBC Hazards Protection further highlights his standing as a promising young researcher. Though formal awards and honors are not explicitly listed, his growing publication record, technical innovations, and leadership in cutting-edge research position him as a strong candidate for future academic and professional accolades.

Publications Top Noted

Title: Composition, structure and position resolution optimization of plastic scintillator units and arrays for a muon tomography detector
Year: 2025

Title: Performance simulation of an all-solid-state neutron detector based on stilbene and 6Li glass composite
Year: 2025

Title: Optimized design of gamma detectors based on scintillator and wavelength-shifting fiber for arrayed radiation portal monitors
Year: 2025
Citation: 1 citation

Title: The Influence of Mg Doping in α-Al₂O₃ Crystals Investigated with First-Principles Calculations and Experiment
Year: 2025
Citation: 1 citation

Conclusion

Zhenyu Wang is a strong contender for the Best Research Article Award. His work demonstrates technical depth, innovation, and applied relevance, particularly in nuclear radiation field reconstruction and cosmic muon detection. To maximize the strength of the application, it is recommended

Vignesh Arumugam | Biology and Life Sciences | Excellence in Research Award

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Assist. Prof. Dr. Vignesh Arumugam | Biology and Life Sciences | Excellence in Research Award

Assistant Professor of Botany at NGM College (Autonomous) Pollachi | India

Dr. Vignesh Arumugam, M.Sc., Ph.D., is an Assistant Professor (Temporary) in the Department of Botany at NGM College (Autonomous), affiliated with Bharathiar University in Tamil Nadu, India. With a Ph.D. in Botany from Bharathiar University, his research spans phytochemistry, food biotechnology, pharmacology, microbiology, and nanotechnology. He has authored over 30 peer-reviewed articles in Q1 and Q2 SCIE/Scopus-indexed journals and serves on the editorial boards and as a reviewer for numerous international journals. His work has earned him accolades such as the Best Researcher Award (2024) and the Innovative Project Proposal Award (2021). Dr. Vignesh is actively engaged in student mentorship, curriculum development, and research proposal writing. His interdisciplinary research focuses on the bioactive potential of medicinal plants, green synthesis of nanoparticles, and the health impact of functional foods. With an H-index of 10 (Google Scholar), his growing academic footprint and dedication to scientific advancement make him a promising contributor to the fields of plant science and biotechnology.

Professional Profile 

Education

Dr. Vignesh Arumugam holds a strong academic background in the biological sciences. He earned his Ph.D. in Botany from Bharathiar University, Coimbatore, completing his doctoral research between 2015 and 2022 with a focus on phytochemical analysis, ethnobotany, and plant-based nanotechnology. Prior to his doctoral studies, he completed his M.Sc. in Botany at Bharathidasan University, Tiruchirappalli, from 2012 to 2014, where he gained advanced knowledge in plant biology and related laboratory techniques. He began his academic journey with a B.Sc. in Biotechnology from JJ College of Arts and Science, Pudukkottai, between 2009 and 2012, laying a strong interdisciplinary foundation that supports his current research in pharmacognosy, microbiology, and bioinformatics.

Professional Experience

Dr. Vignesh Arumugam has accumulated diverse professional experience in both teaching and research within the field of plant sciences. He is currently serving as an Assistant Professor (Temporary) in the Department of Botany at NGM College (Autonomous), Pollachi, where he teaches microbiology, biochemistry, biotechnology, and bioinformatics, while also supervising Ph.D. and undergraduate research students. Prior to this role, he worked as a Project Assistant at Bharathiar University from 2014 to 2016, contributing to projects funded by TNSCST, focusing on plant conservation, phytochemical screening, and cryopreservation techniques. His professional contributions extend beyond the classroom through his roles as Placement and Scholarship Coordinator, curriculum developer, and organizer of seminars and workshops, reflecting his commitment to academic mentorship, student development, and interdisciplinary research.

Research Interest

Dr. Vignesh Arumugam’s research interests lie at the intersection of plant science, biotechnology, and pharmacology, with a strong focus on the discovery and application of bioactive compounds from medicinal plants. He specializes in phytochemistry, ethnobotany, food biotechnology, and nanotechnology, exploring the therapeutic potential of plant extracts and green-synthesized nanoparticles. His work includes in vitro and in silico investigations into antioxidant, anti-inflammatory, anticancer, and antimicrobial activities, along with studies on functional foods and nutraceuticals for chronic disease prevention. Additionally, he is keenly interested in the environmental impact of nanopollution, the gut microbiota’s role in health, and the sustainable utilization of plant resources from biodiversity-rich regions like the Western Ghats. His interdisciplinary approach bridges traditional knowledge with modern scientific techniques to address pressing health and environmental challenges.

Award and Honor

Dr. Vignesh Arumugam has been recognized for his innovative and impactful contributions to scientific research through several prestigious awards and honors. In 2024, he received the Best Researcher Award for his excellence in phytochemical analysis from the International Academic Awards organized by ScienceFather. Earlier, during 2020–2021, he was honored with the Innovative Project Proposal Award by the Institution’s Innovation Council (IIC) at Bharathiar University, acknowledging his ability to conceptualize forward-thinking research proposals. Additionally, he was supported by the Tamil Nadu State Council for Science and Technology (TNSCST) as a Project Assistant between 2014 and 2016, which provided him with a foundation to advance in plant biotechnology and conservation research. These recognitions reflect his dedication to high-quality research, innovation, and his growing influence in the scientific community.

Publications Top Noted

Title: A review on the influence of nutraceuticals and functional foods on health
Year: 2024
Citations: 73

Title: Comparative LC-MS analysis of bioactive compounds, antioxidants and antibacterial activity from leaf and callus extracts of Saraca asoca
Year: 2022
Citations: 53

Title: Food contaminants: Impact of food processing, challenges and mitigation strategies for food security
Year: 2024
Citations: 29

Title: Nutritional assessment, antioxidant, anti-inflammatory and antidiabetic potential of traditionally used wild plant, Berberis tinctoria Lesch.
Year: 2021
Citations: 29

Title: Green synthesis and characterization of zinc oxide nanoparticles using Berberis tinctoria Lesch. leaves and fruits extract of multi-biological applications
Year: 2021
Citations: 28

Title: Unraveling the role of medicinal plants and Gut microbiota in colon cancer: Towards microbiota-based strategies for prevention and treatment
Year: 2023
Citations: 27

Title: A review on ethnomedicinal and phytopharmacological potential of traditionally wild and endemic plant Berberis tinctoria Lesch.
Year: 2022
Citations: 19

Conclusion

Dr. Vignesh Arumugam is a highly qualified and promising candidate for the Excellence in Research Award. His interdisciplinary research, strong publication record, and academic service make him well-suited for recognition. Although there is room to broaden his international collaboration and innovation impact, his current profile reflects research excellence, institutional contribution, and scientific integrity.

Baran Seven | Biology and Life Sciences | Best Academic Researcher Award

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Dr. Baran Seven | Biology and Life Sciences | Best Academic Researcher Award

TST Rakor ve Tıbbi Aletler San ve Tic Ltd Sti | Turkey 

Dr. Baran Seven is a dedicated academic researcher in the field of Biology, specializing in toxicology, genotoxicity, and environmental health sciences. He completed his Ph.D. in Biology at Giresun University in 2022, following both his bachelor’s and master’s degrees from the same institution. His research primarily focuses on investigating the toxic effects of various environmental and chemical agents—such as pesticides, parabens, heavy metals, and synthetic additives—using in vivo models like Swiss albino mice and Allium cepa. He also explores the protective roles of natural plant extracts (e.g., grape seed, Nigella sativa, and nettle) against induced toxicity. Dr. Seven has contributed to numerous peer-reviewed national and international publications, including a notable article in Scientific Reports, and has presented at more than 25 scientific conferences. With experience in collaborative research projects and a consistent academic trajectory, he is emerging as a strong researcher in the field of experimental biology and environmental toxicology.

Professional Profile 

Scopus Profile

Education 

Dr. Baran Seven has pursued his entire academic journey in the field of Biology at Giresun University, Turkey. He earned his Bachelor’s degree in Biology in 2013, laying a solid foundation in life sciences. He then completed his Master’s degree in 2015, focusing on toxicology with a thesis titled “Albino farelerde paraben tarafından teşvik edilen toksisiteye karşı ısırgan otu özütünün koruyucu rolünün araştırılması” (The protective role of nettle extract against paraben-induced toxicity in albino mice). Building on this expertise, he obtained his Ph.D. in Biology in 2022, with a comprehensive dissertation titled “Swiss albino farelerde sipermetrin toksisitesinin araştırılması: Fizyolojik, genetik ve biyokimyasal yaklaşım” (Investigation of cypermethrin toxicity in Swiss albino mice: A physiological, genetic, and biochemical approach). His academic progression reflects a strong and focused commitment to experimental toxicology and environmental biology.

Professional Experience 

Dr. Baran Seven has cultivated significant research experience in the fields of environmental toxicology, genotoxicity, and biological sciences through his active involvement in various academic projects and collaborative studies. He has served as a research assistant and co-investigator in multiple experimental research projects focusing on the physiological and genotoxic impacts of chemical substances—including parabens, lead, titanium dioxide, and pesticides—on animal and plant models. His work notably includes assessing the protective effects of natural compounds like Nigella sativa, carotene, and grape seed extract against chemically induced toxicity. In addition to project-based roles, Dr. Seven has contributed extensively to academic literature with research published in peer-reviewed journals and numerous presentations at national and international scientific conferences. His hands-on involvement in laboratory experiments and interdisciplinary teamwork highlights his strong technical skills and dedication to advancing public health-related biological research.

Research Interests 

Dr. Baran Seven’s research interests lie at the intersection of environmental toxicology, genotoxicity, and natural product pharmacology. He is particularly focused on exploring the toxic effects of environmental pollutants—such as pesticides (e.g., cypermethrin), heavy metals, and industrial chemicals—on living organisms, using both animal (Mus musculus) and plant (Allium cepa) model systems. A significant aspect of his work involves evaluating the protective and therapeutic potential of natural plant extracts (like Urtica dioica, Nigella sativa, and grape seed extract) against chemically induced oxidative stress and DNA damage. His multidisciplinary approach combines physiological, biochemical, and genetic analysis techniques, including the Comet assay and chromosomal aberration tests, to assess cellular responses to toxic exposure. Dr. Seven’s work aims to contribute to environmental health, public safety, and the development of natural alternatives to chemical-based interventions.

Awards and Honors 

While specific individual awards and honors are not explicitly listed in his academic record, Dr. Baran Seven’s scholarly contributions have been consistently recognized through his active participation in national and international scientific congresses, where he has presented numerous full-text papers and oral/poster presentations. His research has earned visibility in prestigious platforms such as the Scientific Reports journal, reflecting the academic merit and impact of his work in the field of toxicology and genotoxicology. His selection as a co-author and contributor in multiple collaborative projects also indicates the professional respect and trust he holds within his research community. Continued recognition through peer-reviewed publications and invitations to present at major scientific forums highlight his growing reputation as a promising researcher in environmental health and biological sciences.

Publications Top Noted

Title: Investigation of cypermethrin toxicity in Swiss albino mice with physiological, genetic and biochemical approaches

Year: 2022

Citations: 25

Conclusion

Dr. Baran Seven demonstrates strong potential and suitability for the Best Academic Researcher Award, particularly in the early-career or mid-career researcher category (age 34). His focused and original contributions to toxicology and genotoxicity, consistent publication record, and active conference engagement qualify him for recognition.

Huifang Niu | Engineering and Technology | Best Researcher Award

Published on by Research Hypothesis

Dr. Huifang Niu | Engineering and Technology | Best Researcher Award

lecturer | North University | China

Huifang Niu, born in September 1986, is a Lecturer at North University of China with a strong academic background in automation and intelligent systems. She earned her Bachelor’s degree in Automation and her M.S. in Pattern Recognition and Intelligent Systems from Mongolian University, Hohhot, China, in 2010 and 2013 respectively. In 2023, she completed her Ph.D. in Complex System Modeling and Simulation at North University of China. Her current research focuses on the Remaining Useful Life (RUL) prediction of complex systems, an important area in predictive maintenance and reliability engineering. As an active researcher and educator in electrical engineering, she has published three SCI-indexed journal articles and continues to contribute to the advancement of intelligent system modeling and predictive analytics. Her interdisciplinary expertise bridges automation, simulation, and intelligent diagnostics, positioning her as a promising figure in applied engineering research.

Professional Profile 

Scopus Profile

Education 

Huifang Niu has pursued a progressive academic path in engineering and intelligent systems. She earned her Bachelor’s degree in Automation from Mongolian University, Hohhot, China in July 2010, laying the foundation for her expertise in control systems and automation technologies. She continued at the same institution to obtain her Master’s degree in Pattern Recognition and Intelligent Systems in July 2013, where she delved deeper into machine learning and intelligent algorithms. Most recently, she completed her Ph.D. in Complex System Modeling and Simulation from North University of China, Taiyuan, in June 2023, with a research focus on predictive modeling and the remaining useful life (RUL) of complex systems. Her academic journey reflects a strong.

Professional Experience 

Huifang Niu is currently serving as a Lecturer at North University of China, where she is actively involved in both teaching and research within the field of electrical engineering. Her professional work centers on the prediction of the Remaining Useful Life (RUL) of complex systems, a vital area in the domains of system reliability and intelligent maintenance. With a strong academic foundation and research focus, she contributes to the academic development of undergraduate and postgraduate students while also engaging in scholarly research. Her role bridges theory and application, combining complex system modeling with real-world engineering challenges. Through her work, she continues to expand her expertise in automation, intelligent diagnostics, and predictive system analysis.

Research Interests

Huifang Niu’s research interests lie at the intersection of complex system modeling, intelligent diagnostics, and predictive maintenance. She is particularly focused on the Remaining Useful Life (RUL) prediction of complex systems, which plays a crucial role in improving system reliability, optimizing maintenance strategies, and reducing operational risks in industrial settings. Her work leverages techniques from pattern recognition, machine learning, and simulation modeling to develop accurate and efficient predictive models. Driven by real-world engineering challenges, her research aims to enhance the performance, safety, and longevity of automated and intelligent systems, contributing meaningfully to the fields of electrical engineering, system reliability, and intelligent systems design.

Awards and Honors

As an emerging scholar in the field of intelligent systems and predictive maintenance, Huifang Niu has begun to establish her academic footprint through SCI-indexed publications and her contributions to complex system modeling. While she has not yet been widely recognized with major national or international awards, her recent completion of a Ph.D. in 2023 and her ongoing research work position her as a strong candidate for future honors. Her dedication to high-quality research, teaching excellence, and contributions to the engineering community suggest that further academic and professional recognition is likely as she continues to advance her scholarly career.

Publications Top Noted

Title: Remaining Useful Life Prediction for Multi-Component Systems with Stochastic Correlation Based on Auxiliary Particle Filter

Year: 2025

Conclusion

Hiufang Niu shows promising early-career researcher qualities, especially with a recent Ph.D. and specialized work in predictive modeling for complex systems. Her academic progression, SCI-indexed publications, and focused research direction provide a strong foundation. However, for a highly competitive “Best Researcher Award,” the scope and impact of contributions could be further enhanced.