Hao He | Data Science in Marketing | Best Researcher Award

Dr. Hao He | Data Science in Marketing | Best Researcher Award

Ph.D Candidate at Harbin University of Commerce, China

Hao He is a Ph.D. candidate at the School of Management, Harbin University of Commerce, China. His academic trajectory is deeply rooted in the intersection of technology and human behavior, specifically focusing on the dynamic field of Human-AI Interaction. As a rising scholar, Hao He has built a solid foundation in interdisciplinary research that bridges digital marketing, tourism management, and decision sciences. His contributions offer meaningful insights into how emerging technologies, such as artificial intelligence and big data analytics, are reshaping consumer behavior, organizational decision-making, and the broader socio-economic landscape.

Profile

Google Scholar

Education

Hao He is currently pursuing his doctoral studies at Harbin University of Commerce, where he is enrolled in the School of Management. His academic training is characterized by a rigorous curriculum emphasizing analytical modeling, data science, and behavioral theories. Throughout his doctoral program, Hao He has developed expertise in both quantitative and qualitative research methodologies, enabling him to address complex, real-world problems in a methodologically sound manner. His academic focus is highly multidisciplinary, integrating theories from information systems, marketing, management science, and artificial intelligence to explore innovative solutions in contemporary business and technological contexts.

Experience

As a doctoral researcher, Hao He has engaged in multiple research projects addressing real-time and large-scale decision-making challenges in both industrial and academic environments. He has collaborated with peers and senior researchers in China and internationally, contributing to the development of robust models and frameworks for analyzing human interaction with AI technologies. His involvement extends to publishing scholarly articles, presenting at international conferences, and conducting advanced empirical studies using multi-modal data. Hao He’s academic career is further marked by his active participation in research committees and peer review panels, where he evaluates emerging work in digital transformation, AI ethics, and human-computer interaction.

Research Interest

Hao He’s primary research interests include Human-AI Interaction, Digital Marketing, Multi-Modal Big-Data Analysis, Tourism Management, and Large-Scale Group Decision-Making. His research explores the sociotechnical implications of intelligent systems and their role in shaping user experiences across various industries, especially tourism and e-commerce. He is particularly interested in how anthropomorphic features in AI systems influence user trust and emotional engagement, and how data analytics can uncover hidden consumer patterns. His approach combines machine learning, social network analysis, and behavioral science to generate practical insights for both academics and practitioners.

Award

Although still in the early stage of his academic career, Hao He has already gained recognition in the research community through several high-impact publications and conference presentations. His scholarly work has been accepted in top-tier journals such as Technological Forecasting & Social Change, Energy Economics, and Frontiers in Psychology. These achievements reflect his academic rigor and innovative thinking, which have positioned him as a promising scholar in the domains of management and information science.

Publication

Hao He has authored multiple research articles published in reputable international journals. Seven notable publications include:

  1. “What Is the Focus of Energy Supply Chain Relationship Management During Geopolitical Risks?” (Energy Economics, 2025, In-press), examines transaction cost economics in the context of global supply chain volatility.

  2. “Warmth trumps competence? Uncovering the influence of multimodal AI anthropomorphic interaction experience on intelligent service evaluation” (Technological Forecasting & Social Change, 2024), which explores how AI design elements affect consumer perceptions.

  3. “Exploring thematic influences on theme park visitors’ satisfaction” (Journal of Consumer Behaviour, 2023), provides empirical evidence on customer experience at Disneyland China.

  4. “Exploring the Over-Time Variation in Customer Concerns on Sharing Economy Services” (Journal of Global Information Management, 2023), analyzes user-generated content to track changing consumer priorities.

  5. “A Large-Scale Group Decision-Making Model Considering Expert Authority Degree and Relationship Evolution” (Group Decision & Negotiation, 2024), presents a novel model for collective decision-making in networked systems.

  6. “Engaging Tourists from City Aesthetics” (Asia Pacific Journal of Marketing and Logistics, 2025, In-press), utilizes computer vision and text mining to assess how urban design impacts tourism engagement.

  7. “Research on Government Subsidy Strategies for Power Batteries of New Energy Vehicles” (Humanities and Social Sciences Communications, 2025, In-press), investigates policy mechanisms influencing R&D and recycling strategies. These papers are widely cited in the domains of AI-driven analytics and behavioral science, reflecting their relevance and impact.

Conclusion

Hao He stands at the forefront of a new generation of interdisciplinary researchers who are redefining how we understand and design AI systems for human-centric applications. His work has already begun to shape discussions around trust, satisfaction, and efficiency in technologically mediated environments. Through his dedication to empirical rigor and theoretical innovation, Hao He continues to contribute meaningfully to academia and industry alike. As he progresses in his doctoral journey, his future research is poised to further influence policy, practice, and innovation in the ever-evolving interface between humans and intelligent systems.

Ali Shanaghi | Biomaterials and Materials Engineering | Best Researcher Award

Assoc. Prof. Dr. Ali Shanaghi | Biomaterials and Materials Engineering | Best Researcher Award

Associate Professor at Malayer University, Iran

Dr. Ali Shanaghi is an esteemed Associate Professor in the Department of Materials Engineering at Malayer University, Iran. With a prolific academic and research trajectory, he has significantly contributed to the fields of corrosion engineering, nanostructured coatings, and surface modifications. Renowned for his dedication to advancing material performance through nanotechnology, his research outcomes have had a meaningful impact on both industrial applications and scientific understanding. Dr. Shanaghi holds multiple editorial and leadership roles in academic settings and has been consistently recognized as a top researcher in his field.

Profile

Scholar

Education

Dr. Shanaghi completed his Ph.D. in Materials Engineering (Corrosion Engineering) at Tarbiat Modares University, Tehran, in 2011. His doctoral research focused on the deposition of TiC nanostructured thin films via Plasma CVD and their tribological and corrosion behavior. He earned his M.Sc. from the same university in 2007, exploring TiO₂ nanoparticle coatings on stainless steel using the sol-gel method. His academic journey began with a B.Sc. in Metallurgy and Materials Engineering from Semnan University in 2005. Throughout his studies, Dr. Shanaghi consistently ranked among the top of his class.

Experience

Dr. Shanaghi began his academic career as an Assistant Professor at Malayer University in 2012, rising to Associate Professor in 2017. Over the years, he has served in numerous academic leadership roles, including Head of the Department of Materials Engineering. He has also chaired national conferences, contributed to editorial boards, and guided numerous graduate students. As a longstanding member of the Iranian Corrosion Association, Dr. Shanaghi has helped shape national standards in corrosion science and materials protection.

Research Interests

Dr. Shanaghi’s research interests are centered on the design and evaluation of nanostructured coatings, corrosion and surface engineering, plasma surface processing, and sol-gel technologies. He is particularly interested in self-healing coatings and biomaterials, aiming to enhance their mechanical and electrochemical performance. His multidisciplinary approach integrates material science with practical applications in aerospace, biomedical, and industrial infrastructure.

Awards

Dr. Shanaghi has received numerous accolades for his academic and research excellence. He ranked first in the Ph.D. entrance exam at Tarbiat Modares University and was the top student during his M.Sc. program. He was recognized as the top researcher in the Faculty of Engineering in 2013 and subsequently honored as the top researcher of the Materials Engineering Department every year from 2017 to 2022. In 2022, he was awarded as the top professor for university-industry collaboration by Iran’s Ministry of Science, Research, and Technology.

Publications

Dr. Shanaghi has authored over 50 peer-reviewed journal articles. Below are selected seven notable publications:

  1. TiC/Ti coatings fabricated on NiTi by plasma immersion ion implantation, Vacuum (2013), cited by 250+ articles.

  2. Corrosion resistance of Ti/TiC coatings on NiTi, Surface and Coatings Technology (2013), cited by 300+ articles.

  3. Corrosion resistance of mild steel using TiO₂ coatings, Journal of Nanoengineering and Nanosystems (2013), cited by 150+ articles.

  4. Tribological and Corrosion Properties of Ni/TiC Bilayered Coatings, Journal of Materials Engineering and Performance (2016), cited by 200+ articles.

  5. Corrosion behavior of nanostructured Ti/TiN multilayers, Surface and Coatings Technology (2017), cited by 175+ articles.

  6. Electrochemical behavior of zirconia-benzotriazole nanocoatings, Journal of Alloys and Compounds (2018), cited by 180+ articles.

  7. Advanced Hydroxyapatite-DLC coatings for NiTi biomedical alloys, Ceramics International (In Press, 2025), emerging citations.

Conclusion

Dr. Ali Shanaghi’s career reflects a remarkable fusion of deep theoretical understanding and practical application in materials engineering. Through continuous research, innovation, and leadership, he has advanced the frontiers of corrosion protection, nanotechnology, and biocompatible materials. His dedication to academia, industry collaboration, and student mentorship further elevates his influence, making him a distinguished contributor to the global scientific community.

Janusz Kacprzyk | cryptography | Best Researcher Award

Prof. Janusz Kacprzyk | cryptography | Best Researcher Award

Professor, Head of Department Systems Research Institute, Polish Academy of Sciences, Poland

Professor Janusz Kacprzyk is an internationally acclaimed academician and researcher recognized for his groundbreaking contributions to the field of computational intelligence, particularly in fuzzy systems and soft computing. A full professor and fellow of multiple prestigious institutions including IEEE, IET, EurAI, IFSA, and AAIA, he holds positions across a multitude of universities and research bodies globally. As a full member of the Polish Academy of Sciences, his career spans over five decades and has been marked by a sustained commitment to advancing systems analysis, artificial intelligence, and decision-making under uncertainty. His influence in shaping modern fuzzy logic and its applications has been recognized with numerous honorary degrees, awards, and fellowships.

Profile

Orcid

Education

Professor Kacprzyk’s academic foundation was built at the Warsaw University of Technology where he obtained his M.S. in computer science and automatic control in 1970. He further earned his Ph.D. summa cum laude in systems analysis from the Systems Research Institute of the Polish Academy of Sciences in 1977. He achieved his habilitation (D.Sc.) in computer science in 1990, and in 1997, he was appointed as Full Professor by the President of the Republic of Poland, solidifying his stature as a leader in his domain.

Experience

Professor Kacprzyk has held long-term and visiting academic roles in top institutions worldwide. He has been a professor at the Systems Research Institute of the Polish Academy of Sciences since 1970, and has also served in professorial roles at the Warsaw School of Applied Information Technology and Management, Industrial Research Institute of Automation and Measurements, AGH University in Cracow, and institutions in China. Internationally, he has been a visiting professor or scientist in the USA, UK, Japan, Mexico, and Italy. His leadership includes directorship roles and heading doctoral studies, demonstrating both academic and administrative excellence. He also held strategic roles such as Chair of the IEEE CIS Award Committee and member of various IEEE boards and international scientific committees.

Research Interests

His core research interests lie in systems analysis, fuzzy logic, computational intelligence, decision-making under uncertainty, and soft computing. He is a recognized pioneer in fuzzy dynamic programming and multistage fuzzy control. His work bridges theoretical models with practical applications in economics, management, robotics, and artificial intelligence. Professor Kacprzyk has also significantly contributed to the development of consensus models, fuzzy databases, and intuitionistic fuzzy sets, fostering interdisciplinary research across computer science, operations research, and cognitive sciences.

Awards

Professor Kacprzyk’s contributions have earned him a wide array of accolades. These include the Enrique Ruspini Award (2023), Medal of the President of Taiwan (2019), HAFSA Award (2017), INNS India Chapter Award (2016), ECSC Medal (2015), and IFSA Lifetime Achievement Award (2013). He also received the Pioneer Award from IEEE CIS in 2006 and 2007 for his groundbreaking work in fuzzy systems and computing with words. Further honors include multiple honorary doctorates from leading universities in Hungary, Bulgaria, Finland, Ukraine, and Poland. His inclusion in Stanford University’s Top 2% Scientists from 2020–2024 affirms his lasting global impact.

Publications

Professor Kacprzyk has authored over 700 publications, including books, journal articles, and edited volumes. Some of his notable publications include:

  • Multistage Decision Making under Fuzziness, Verlag TÜV Rheinland, 1983.

  • Fuzzy Sets in Systems Analysis, PWN, 1986.

  • Multistage Fuzzy Control, Wiley, 1997.

  • Flows in Networks Under Fuzzy Conditions, Springer, 2017.

  • Fuzzy Transportation and Transshipment Problems, Springer, 2020.

  • Reverse Clustering – Formulation, Interpretation and Case Studies, Springer, 2021.

  • Granular, Fuzzy, and Soft Computing, Springer, 2023.
    These works have been collectively cited over 38,500 times on Google Scholar, with an h-index of 83, reflecting exceptional academic influence.

Conclusion

Professor Janusz Kacprzyk stands as a luminary in the realms of fuzzy logic, systems science, and soft computing. With an extraordinary academic legacy characterized by innovation, interdisciplinary breadth, and global engagement, he continues to inspire generations of researchers and students. His unmatched contributions to theoretical frameworks and their practical deployments in artificial intelligence and decision support systems position him as a cornerstone of modern computational intelligence. Through his prolific scholarship, influential leadership, and enduring commitment to excellence, Professor Kacprzyk exemplifies the ideals of scholarly distinction and international cooperation.

Md. Kamrul Islam | Transportation Engineering and Planning | Best Researcher Award

Assoc. Prof. Dr. Md. Kamrul Islam | Transportation Engineering and Planning | Best Researcher Award

Associate Professor at King Faisal University, Saudi Arabia

Md. Kamrul Islam is an accomplished academic and transportation engineer specializing in public transit systems, sustainable pavement technologies, and transportation safety analytics. Currently an Associate Professor at King Faisal University (KFU) in Saudi Arabia, he is actively engaged in collaborative international research and multidisciplinary projects addressing key challenges in civil and environmental engineering. With over two decades of academic, consultancy, and research experience, Dr. Islam has contributed significantly to transportation planning, traffic safety, and infrastructure development across Asia, Australia, and the Middle East.

Profile

Orcid

Education

Dr. Islam received his PhD in Transportation Engineering from the University of New South Wales, Australia, in 2014. His doctoral dissertation focused on stochastic modeling to evaluate the impacts of headway variability on public transit systems, providing a foundation for his expertise in computational and analytical modeling. He completed his Master’s in Engineering with a major in Transportation Planning at the University of Tokyo, Japan, in 2006. There, he developed transport network simulations for Japanese cities and explored regional systems through data analysis. His undergraduate degree in Civil Engineering was earned at Dhaka University of Engineering and Technology (DUET), Bangladesh, in 2002, and later assessed by Engineers Australia for recognition as a professional engineer.

Experience

Professionally, Dr. Islam has built an extensive and diverse career. He joined King Faisal University in 2015 as an Assistant Professor and was promoted to Associate Professor in 2024. At KFU, he leads several research projects under the Saudi Aramco Chair on Asphalt Pavement and has been instrumental in establishing international collaborations with prominent institutions such as the University of Illinois, Texas A&M University, and the University of Texas at Austin. His work focuses on sulfur-extended asphalt, pavement life-cycle assessments, and material performance. Prior to his role at KFU, he served as an Assistant Professor and Lecturer at DUET, where he taught and supervised students in transportation and civil engineering disciplines. He also worked as a consultant at Pacific Consultant International in Japan, and briefly held a governmental position in Bangladesh overseeing infrastructure development for disaster-prone regions.

Research Interest

Dr. Islam’s research spans multiple facets of transportation and civil engineering. His interests include transit reliability modeling, traffic safety analysis using machine learning, sustainable road materials, and climate-resilient infrastructure planning. His recent work integrates deep learning techniques to analyze pedestrian and vehicular crash data, optimizes road safety strategies, and evaluates environmental risks associated with pavement and urban development. Additionally, he has contributed to flood and drought vulnerability studies, public health assessments related to traffic noise, and simulation-based urban planning.

Awards

Dr. Islam has been recognized for his academic excellence throughout his career. He received the prestigious “Furuichi Kimitake Prize” from the University of Tokyo in 2006 for exceptional academic performance and the “Institute Gold Medal” from DUET in 2002 in recognition of his undergraduate achievements. His ability to secure more than 50 research grants through the Deanship of Scientific Research at KFU reflects his commitment to high-impact academic inquiry and innovation.

Publications

Dr. Islam has authored over 70 peer-reviewed articles in leading journals.

  • Rehman, Z. U., Chaozhe, J., Jamal, A., Almarhabi, Y., Wang, C., Alam, E., & Md Kamrul Islam. (2025). Unveiling pedestrian injury severity risk factors: A comparative analysis of machine learning and deep learning methods. Transportation Engineering, 2025, 100352. https://doi.org/10.1016/j.treng.2025.100352

  • Alfawzan, M. S., Jamal, A., Md Kamrul Islam, Minhas, K. S., & Aftab, A. (2025). Advancing urban mobility: A microsimulation-based approach for assessing the impact of intersection improvement strategies in Qatif, Saudi Arabia. ZKG International. https://doi.org/10.63386/617359

  • Rahman, M. M., Shobuj, I. A., Santo, M. M. H., Ali, H. M., Hossain, M. T., Alam, E., & Md Kamrul Islam. (2025). Knowledge, attitude, and practices towards lightning among vulnerable group: A case study on Agri farmers and fishermen. Sustainable Environment, 11(1), 2464373. Taylor & Francis.

  • Islam, A. R. M. T., Mia, M. U., Nova, N. A., Chakrabortty, R., Khan, M. S. I., Ghose, B., Pal, S. C., Bari, A. B. M., Alam, E., & Md Kamrul Islam. (2025). Enhancing flood susceptibility mapping in Meghna River basin by introducing ensemble Naive Bayes with stacking algorithms. Geomatics, Natural Hazards and Risk, 16(1), 2464049. Taylor & Francis.

  • Das, B. C., Islam, A., Mahammad, S., Alam, E., Islam, A. R. M. T., Sarkar, B., Barman, S. D., Pal, S. C., & Md Kamrul Islam. (2025). Examining the complexity of discharge-suspended sediment behaviour of a tropical monsoon-dominated river, India. Journal of Hydrology: Regional Studies, 59, 102335. Elsevier.

  • Mukherjee, S., Alam, E., Mondal, M., Haldar, S., Bhattacharya, S., Md Kamrul Islam, & Paul, S. (2025). Long term and short term spatio‐temporal characterisation of rainfall variability and dynamicity over the westernmost part of West Bengal, India using modified Mann‐Kendall test and innovative trend analysis. Geological Journal, 60(5), 1065–1092. John Wiley & Sons, Inc.

  • Magalingam, S., Radhakrishnan, S., Karuppannan, S., Alam, E., & Md Kamrul Islam. (2025). Demarcating paleoflood repositories using documentary evidence and flood geomorphic landforms. Quaternary Science Advances, 18, 100281. Elsevier.

  • Saha, A., Pal, S. C., Islam, A., Islam, A. R. M. T., Pande, C. B., Alam, E., & Md Kamrul Islam. (2025). Climate change induced extreme meteorological conditions over sub-tropical environment: Pathways towards achieving Sustainable Development Goals (SDGs). Discover Sustainability, 6(1), 317. Springer International Publishing.

Conclusion

Md. Kamrul Islam represents a dynamic and highly productive figure in transportation engineering. His work continues to impact public safety, infrastructure sustainability, and environmental resilience across regions. Through his leadership in international collaborations, multidisciplinary research, and mentoring of young engineers, Dr. Islam remains a key contributor to the advancement of civil and transportation engineering on a global scale. His dedication to academic excellence and applied innovation ensures that his contributions will continue to address pressing societal challenges in transportation and urban systems.

Fasika Wondimu Gelu | Numerical Analysis | Best Researcher Award

Assist. Prof. Dr. Fasika Wondimu Gelu | Numerical Analysis | Best Researcher Award

Research Publication Officer at Dilla University, Ethiopia

Dr. Fasika Wondimu Gelu is an accomplished Assistant Professor of Mathematics with specialized expertise in numerical analysis, particularly in the development of high-order numerical methods for solving singularly perturbed differential equations. His academic journey and professional dedication reflect a commitment to both teaching and cutting-edge research. Since joining Dilla University in 2015, he has contributed significantly to both the academic community and the broader field of computational mathematics through his teaching, publications, and service roles. As a highly driven researcher, he has supervised multiple postgraduate students and served as an external examiner, while also being actively involved in funded research projects. His work emphasizes the design and implementation of parameter-uniform numerical schemes for ordinary and partial differential equations with boundary layers and sharp gradients.

Profile

Orcid

Education

Dr. Fasika’s academic foundation is firmly rooted in mathematics and numerical analysis. He completed his Ph.D. in Mathematics at Jimma University in 2023, where he focused on constructing efficient numerical techniques for solving singularly perturbed problems. Prior to that, he earned his M.Sc. in Mathematics, also from Jimma University, in 2014, building a solid theoretical and practical base in numerical analysis. He began his academic journey with a Bachelor of Education in Mathematics from Dilla University in 2007. His continuous academic progression demonstrates his long-term commitment to mastering complex mathematical modeling and problem-solving.

Experience

With over a decade of teaching experience, Dr. Fasika has taught mathematics at various academic levels, from high school to university. Between 2000 E.C and 2005 E.C, he taught grades 9–12, laying the groundwork for his pedagogical expertise. He later worked as a part-time instructor at Gojeb Education & Training College and Infolink University College. Since 2015, he has been a full-time faculty member at Dilla University, where he currently serves as an Assistant Professor. Beyond teaching, he has played a key administrative role as the Research Publication Officer in the Research Publication, Ethics, and Dissemination Directorate at the university. His experience includes supervising five M.Sc. theses and examining postgraduate research at both local and international institutions.

Research Interest

Dr. Fasika’s primary research interests revolve around the numerical solution of singularly perturbed problems, including ordinary differential equations (ODEs), partial differential equations (PDEs), and delay differential equations. His research aims to construct high-order compact and hybrid schemes that deliver accurate solutions for problems characterized by boundary layers and steep gradients. He utilizes finite difference, finite element, and spline-based methods to address parameter-sensitive models in convection-diffusion, reaction-diffusion, and delay-type equations. His contributions are especially significant in developing uniformly convergent numerical techniques on layer-adapted meshes, such as Shishkin meshes, which are critical in handling the computational complexity of singular perturbation problems.

Award

Throughout his career, Dr. Fasika has earned several accolades and certifications recognizing his scholarly impact and contributions to mathematics. He has been awarded certificates of review by prestigious journals including the Journal of Applied Mathematics and Computing (Springer), Results in Applied Mathematics (Elsevier), and Applied Mathematics & Information Sciences. These certificates underscore his active engagement with the academic community as a reviewer, reflecting the trust leading publishers place in his expertise. His involvement in IEEE Authorship and Open Access Symposium also highlights his commitment to academic integrity and the promotion of open research practices.

Publication

Dr. Fasika has published extensively, with over 19 peer-reviewed articles in renowned journals. Below are seven key publications that demonstrate his research impact:

  1. “A uniformly convergent collocation method for singularly perturbed delay parabolic reaction-diffusion problem”Abstract and Applied Analysis, 2021. This paper has been cited in subsequent work on delay PDEs using collocation methods.

  2. “Computational method for singularly perturbed parabolic reaction-diffusion equations with Robin boundary conditions”Journal of Applied Mathematics & Informatics, 2022. This work is frequently cited in studies focusing on Robin-type boundary conditions.

  3. “A novel numerical approach for singularly perturbed parabolic convection-diffusion problems on layer-adapted meshes”Research in Mathematics, 2022. This article is recognized for its effective use of Shishkin meshes and has influenced related research in parabolic PDEs.

  4. “A parameter-uniform numerical method for singularly perturbed Robin type parabolic convection-diffusion turning point problems”Applied Numerical Mathematics, 2023. It stands out for addressing turning points in convection-diffusion scenarios and is widely referenced.

  5. “Hybrid method for singularly perturbed Robin type parabolic convection-diffusion problems on Shishkin mesh”Partial Differential Equations in Applied Mathematics, 2023. This paper has been cited in recent developments of hybrid numerical techniques.

  6. “An accelerated numerical computation for singularly perturbed Robin-type parabolic problems with small parameters”Research in Mathematics, 2024. Frequently referenced in ongoing research concerning small-parameter numerical stability.

  7. “Fitted mesh numerical method for two-parameter singularly perturbed partial differential equations with large time lag”Partial Differential Equations in Applied Mathematics, 2024. Noted for its contribution to two-parameter perturbation theory and time-lag models.

Conclusion

Dr. Fasika Wondimu Gelu exemplifies the synthesis of academic rigor and applied problem-solving in numerical analysis. His journey from a school teacher to a respected researcher and assistant professor underscores his resilience and dedication to mathematics. With a growing list of high-quality publications and an ongoing pursuit of collaborative and postdoctoral opportunities, Dr. Fasika is poised to make further impactful contributions to computational mathematics. His work not only advances theoretical understanding but also offers practical tools for solving complex real-world systems modeled by differential equations.

wulin wu | Economics | Best Researcher Award

Dr. wulin wu | Economics | Best Researcher Award

Lecturer, Master’s Supervisor at School of Economics, Fujian Normal University, China

Dr. Wulin Wu is a distinguished academic serving as a Lecturer and Master’s Supervisor at the School of Economics, Fujian Normal University. Since obtaining his Ph.D. from Fuzhou University in 2019, he has contributed extensively to the domains of digital and green economics. Dr. Wu is an active member of the China Association for Optimal Selection and Economic Mathematics, and he collaborates with several national-level think tanks and research committees. He is well-regarded for his interdisciplinary approach and has played a pivotal role in advancing research initiatives aligned with new quality productivity and economic resilience.

Profile

Scopus

Education

Dr. Wu completed his doctoral studies at Fuzhou University in 2019, specializing in economics with a keen focus on innovative and sustainable economic systems. His academic training provided a robust foundation in microeconomics, macroeconomics, and digital finance, which later shaped his contributions in both teaching and research. His academic path has always been guided by a passion for integrating economic theories with real-world challenges, especially those linked to digital transformation and environmental sustainability.

Experience

Since joining Fujian Normal University, Dr. Wu has held the dual roles of lecturer and master’s supervisor. He is responsible for teaching key courses including “Microeconomics”, “Macroeconomics”, “Introduction to Digital Economy”, and “Research Methods in Economic Sciences”. Beyond academia, Dr. Wu has led and participated in over 50 research projects, including several high-impact provincial and national projects. He has also worked on consultancy projects sponsored by government entities and private enterprises. His professional roles extend to research positions at the National Economic Comprehensive Competitiveness Research Center and the Chinese Council for BRICS Think Tank Cooperation.

Research Interests

Dr. Wu’s research primarily explores the interplay between the digital economy, green economic development, economic resilience, and new quality productivity. His academic pursuits aim to understand how digital inclusive finance can facilitate green transformation through mechanisms like industrial upgrading and high-quality employment. Furthermore, his interest in economic resilience has led to empirical investigations into how economies adapt and evolve in the face of disruptions, particularly under digital and environmental transitions. His integrative outlook brings together sustainability, innovation, and inclusivity, helping formulate forward-looking economic policies.

Awards

Dr. Wu has been repeatedly recognized for his academic excellence and contributions to teaching. Between 2020 and 2025, he earned several accolades at Fujian Normal University, including Outstanding Class Teacher, Outstanding Teacher, and Outstanding Internship Instructor. These honors reflect not only his pedagogical strengths but also his mentorship in nurturing the next generation of economists. His award-winning guidance and curriculum development underscore his commitment to academic and professional excellence.

Publications

Dr. Wu has published more than 20 papers in esteemed journals. A selection of his key publications includes:

  1. Wu, W., & Lin, X. (2025). “Digital inclusive finance for green transformation: Insight from green innovation, industrial upgrading, and employment quality.” Journal of Innovation & Knowledge, 10(3), 100726. https://doi.org/10.1016/j.jik.2025.100726.

Conclusion

Dr. Wulin Wu stands out as a dynamic scholar whose interdisciplinary research and pedagogical dedication significantly impact both academic and applied economics. His body of work bridges theoretical modeling with practical policy recommendations, offering a blueprint for economic systems striving toward sustainability and digital transformation. With an impressive array of publications, ongoing projects, and academic mentorship, Dr. Wu exemplifies the qualities of an innovative and impactful researcher. His contributions not only elevate the research landscape at Fujian Normal University but also resonate across national and international academic and policy communities.

WooJung Jon | Blockchain, Digital Asset | Best Researcher Award

Assoc. Prof. Dr. WooJung Jon | Blockchain, Digital Asset | Best Researcher Award

Associate Professor at Korea Advanced Institute of Science and Technology, South Korea

Professor WooJung Jon is an accomplished academic and legal scholar, currently serving as Associate Professor at KAIST, South Korea. With an interdisciplinary expertise straddling law, technology, and intellectual property, he has built a career distinguished by a fusion of academic excellence, cross-border legal practice, and impactful policy work. He specializes in AI regulation, data law, intellectual property, and digital asset governance, and holds extensive international experience through affiliations with institutions like NYU Law and the Singapore Management University. His prolific research output and active policy engagement make him a leading voice in legal innovation and technology regulation in Asia.

Profile

Orcid

Education

Professor Jon’s academic journey is marked by an impressive array of degrees from globally renowned institutions. He earned his Ph.D. in Law and a Master of Studies in Legal Research from the University of Oxford. He holds a Juris Doctor from Korea University Law School, where he graduated summa cum laude. He also earned a Juris Master from Tsinghua University and a Master of Civil and Commercial Law from Peking University. Earlier, he completed a Bachelor and Master of Law from Seoul National University, graduating valedictorian and summa cum laude. His academic achievements have been consistently recognized through various scholarships and awards, including the Minister of Foreign Affairs and Trade Prize and Rotary Foundation Ambassadorial Scholarship.

Experience

Professor Jon’s career bridges academia, legal practice, and public service. Before joining KAIST as Assistant Professor in 2021 and becoming Associate Professor in 2025, he was a partner at Jeong Yul LLC, where he advised on foreign direct investment, intellectual property, and international arbitration. He has held advisory and leadership roles at KAIST, including Head of the Intellectual Property Minor Program and Program Director for the Global Procurement Program. His public sector involvement includes roles with the Korean Bar Association, Ministry of Land and Infrastructure, and the Presidential Council on Intellectual Property. Internationally, he has held research positions at institutions like the Max Planck Institute, UNIDROIT, and UNCITRAL, and served as a visiting scholar and research affiliate in Japan, Italy, Austria, and the United States.

Research Interest

Professor Jon’s research focuses on the intersection of emerging technologies and law, including AI, blockchain, intellectual property, and digital asset regulation. He leads several government-sponsored research projects on topics such as generative AI governance, digital asset regulatory frameworks, and patent infringement damages. His interests extend to human rights in North Korea, trade law, and comparative civil law. His current affiliations with NYU and SMU’s Centre for Digital Law reflect his global outlook and dedication to transnational legal discourse. His scholarly work is deeply concerned with contemporary legal challenges such as copyright protection for AI-generated works, virtual assets governance, and the implications of the EU AI Act for South Korea.

Award

Professor Jon’s contributions have earned him numerous accolades over his career. He received the Future Innovation Research Award from KAIST in 2022 and the Excellence Paper Award from Korea Exchange in 2024. His service to academia and policy development has been recognized by the Presidential Council on Intellectual Property and the KAIST Graduate School of Future Strategy. Earlier in his academic journey, he received prestigious recognitions such as the Dean’s Award at Korea University and the University President’s Award at Seoul National University, reflecting a consistent track record of excellence.

Publication

Professor Jon has published extensively in prestigious international journals. Selected publications include:

  1. “Mapping South Korea’s digital asset regulatory landscape”, Computer Law & Security Review, Vol. 57, 2025 – Cited by regulatory policy scholars and digital law analysts.

  2. “Comparative analysis of trademark protection in the metaverse”, Computer Law & Security Review, Vol. 57, 2025 – Referenced in virtual asset and IP law research.

  3. “Prompting Creativity: Copyright Protection for AI-Generated Content”, Media & Communication, Vol. 13, 2025 – Used in legal tech innovation studies.

  4. “Scientific challenges in governing military AI”, Nature Electronics, Vol. 7(11), 2024 – Cited by AI ethics and defense policy researchers.

  5. “Is your research a trade secret? South Korean data-sharing case”, Nature, Vol. 631, 2024 – Widely referenced in data privacy debates.

  6. “Benefits of North Korea’s Membership in ICSID”, Pacific Focus, Vol. 39(2), 2024 – Used in cross-border arbitration literature.

  7. “Can North Korea Enforce Foreign Arbitration Awards?”, Korea Observer, Vol. 54(3), 2023 – Cited by international dispute resolution researchers.

Conclusion

Professor WooJung Jon exemplifies a rare blend of scholarly depth, professional versatility, and societal relevance. His work is not confined to theoretical inquiry; it bridges the academic and policy worlds with a commitment to improving legal systems in response to technological change. Through his roles in academia, government, and international organizations, he contributes to shaping robust legal frameworks for future innovation. With a global network and multilingual proficiency, Professor Jon continues to influence legal scholarship and policy on a global scale, serving as a vital figure in navigating the legal complexities of the digital age.

Sabbir Ahmed Udoy | Artificial Intelligence | Best Researcher Award

Mr. Sabbir Ahmed Udoy | Artificial Intelligence | Best Researcher Award

Rajshahi University of Engineering & Technology, Bangladesh

Sabbir Ahmed Udoy is an emerging mechanical engineer and researcher with a multidisciplinary focus on sustainable energy systems, environmental optimization, and advanced manufacturing technologies. With a strong foundation in mechanical engineering, Udoy has contributed to diverse research areas that converge on the goal of promoting sustainability through innovative engineering practices. He currently holds a professional position as a Mechanical Engineer at Smile Food Products Limited, where he applies his academic insights to real-world industrial operations. Through active involvement in scholarly publications, hands-on project execution, and collaborative research endeavors, Udoy is establishing himself as a significant early-career contributor to sustainable engineering and energy research.

Profile

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Education

Udoy earned his Bachelor of Science degree in Mechanical Engineering from Rajshahi University of Engineering & Technology (RUET), Bangladesh, completing his academic program in October 2023. He graduated with a CGPA of 3.24 out of 4.0, showing notable improvement in his final semesters, where he achieved a GPA of 3.40 over the last 60 credits. Throughout his undergraduate journey, he combined rigorous coursework with practical learning experiences and research engagements. His capstone thesis focused on evaluating energy consumption and greenhouse gas emissions in textile manufacturing processes, laying the groundwork for his future research trajectory in energy sustainability.

Experience

Professionally, Udoy has been working as a Mechanical Engineer at Smile Food Products Limited since November 2023. In this role, he manages mechanical maintenance and utility operations for the company’s oil refinery plant, emphasizing preventive strategies to optimize performance and minimize downtime. Earlier, he gained industrial exposure through a training stint at the Bangladesh Power Development Board (BPDB), where he was introduced to the operations of a 365 MW dual-fuel combined cycle gas turbine power plant. These hands-on experiences have enriched his engineering acumen and provided him with the ability to bridge theoretical knowledge with industrial applications.

Research Interest

Udoy’s research interests lie at the intersection of energy, sustainability, and technology. His primary focus areas include energy and environmental sustainability, control systems, energy conversion and storage, and additive manufacturing. He is also deeply interested in advanced materials science, machine learning applications in engineering, waste management, and the role of artificial intelligence in achieving sustainable development goals. This wide spectrum of interests highlights his ambition to tackle global engineering challenges using a multidisciplinary lens and cutting-edge technologies.

Award

Udoy’s academic diligence and leadership have earned him several honors. He was the recipient of the Technical Scholarship awarded by RUET, which supported him financially throughout his undergraduate studies. Additionally, he was granted the Education Board Scholarship by the Government of Bangladesh in recognition of his academic achievements. His proactive role as Class Representative and his leadership in student associations like the Society of Automotive Engineers RUET were acknowledged through certificates and crests of appreciation. He also earned multiple certificates for excellence in conference presentations and technical seminars, further showcasing his active academic involvement and communication skills.

Publication

Udoy has co-authored several peer-reviewed journal articles reflecting his research contributions. In 2025, he co-published Harnessing the Sun: Framework for Development and Performance Evaluation of AI-Driven Solar Tracker for Optimal Energy Harvesting in Energy Conversion and Management: X (Impact Factor 7.1), focusing on AI-based solar optimization. In 2024, he contributed to Investigation of the energy consumption and emission for a readymade garment production and assessment of the saving potential in Energy Efficiency (Impact Factor 3.2), emphasizing sustainable apparel manufacturing. Another 2025 publication in the Journal of Solar Energy Research titled Advancements in Solar Still Water Desalination reviewed solar desalination enhancements. He also co-authored An integrated framework for assessing renewable-energy supply chains in Clean Energy (2024, IF 2.9), and Structural analysis and material selection for biocompatible cantilever beam in soft robotic nanomanipulator in BIBECHANA (2023). His latest accepted work (2025) in Environmental Quality Management investigates methane emissions and energy recovery from landfill sites using statistical machine learning. These articles have been cited by multiple scholars and demonstrate the applied relevance and growing recognition of his work.

Conclusion

Sabbir Ahmed Udoy exemplifies the new generation of engineers committed to solving pressing environmental and energy challenges through innovation and interdisciplinary collaboration. His academic training, coupled with industrial experience and a growing body of impactful research, underscores his potential as a thought leader in sustainable engineering. With a forward-looking research agenda and a strong portfolio of scholarly work, Udoy is well-positioned to make lasting contributions to the global discourse on energy efficiency, renewable technologies, and environmentally conscious engineering solutions.

Avnesh Thakor | Precision Delivery | Best Academic Researcher Award

Prof. Avnesh Thakor | Precision Delivery | Best Academic Researcher Award

Associate Professor at Stanford University, United States

Dr. Avnesh S. Thakor is a distinguished Associate Professor at Stanford University and a dual-certified adult and pediatric Interventional Radiologist. He directs the Interventional Radiology Innovation at Stanford (IRIS), a translational lab pioneering “Precision Delivery” for advanced therapies. His multifaceted clinical and academic expertise spans drug, gene, cell, cell-free, and thermal therapies, with an emphasis on optimizing delivery methods that enhance efficacy while minimizing systemic toxicity. As a physician-scientist and entrepreneur, Dr. Thakor bridges cutting-edge science and clinical translation, shaping the future of interventional regenerative medicine.

Profile

Scopus

Education

Dr. Thakor’s academic journey began at the University of Cambridge, where he earned BA, MA, and PhD degrees, complemented by a medical degree (MB BChir) and an MD through the prestigious MB/PhD program. He pursued multiple specialized fellowships in Interventional Radiology at the University of Cambridge (adult vascular), University of British Columbia (adult oncology), and University of Toronto (pediatric), culminating in comprehensive clinical training. He also earned an MSc from the University of London, focused on nanoparticle-mediated tumor targeting, reflecting his long-standing interest in molecular imaging and targeted therapy.

Experience

Dr. Thakor has served at Stanford University since 2015 as a pediatric interventional radiologist and director of the IRIS lab. His clinical work spans both pediatric and adult interventions, and his research focuses on advancing targeted therapy delivery using tools such as pulsed focused ultrasound. He holds medical licensure in both the UK and USA, is a fellow of the Royal College of Radiologists, and has founded and advised multiple biotech startups, including Teal Health. Additionally, he contributes extensively to teaching and mentoring across educational levels and institutions, from Stanford to Cambridge.

Research Interest

His research is centered on three interconnected modules of Precision Delivery: targeted delivery, microenvironment modulation, and cellular interaction. At IRIS, Dr. Thakor investigates optimal strategies for delivering mesenchymal stem cells (MSCs) and their extracellular vesicles (EVs) to damaged tissues. His lab explores how to use focused ultrasound to prime therapies and modulate target tissues, enhancing the regenerative potential of cellular interventions. Current projects span diabetes, kidney injury, inflammatory bowel disease, and Alzheimer’s disease, often integrating molecular imaging, genomics, and nanotechnology.

Awards

Dr. Thakor’s work has earned him national and international recognition. Recent honors include being named a Fellow of the Society of Interventional Radiology (2024), selection to Marquis Who’s Who in America (2024), and the Academy for Radiology and Biomedical Imaging Research Distinguished Investigator award (2023). His academic accolades span multiple prestigious scholarships and fellowships from organizations like the American Cancer Society, the British Institute of Radiology, and the European Association of Cancer Research.

Publications

Dr. Thakor has authored over 100 peer-reviewed papers.

  • A Theoretical Approach in Applying High-Frequency Acoustic and Elasticity Microscopy to Assess Cells and Tissues

    • Authors: F. Wïnterroth, J. Wang, O. Wink, J.J. Dahl, A.S. Thakor

    • Type: Article • Open Access

    • Citations: 1

  • The Third Pillar of Precision Medicine — Precision Delivery

    • Author: A.S. Thakor

    • Journal: MedComm

    • Type: Article • Open Access

    • Year: 2025

    • Citations: 0

  • Controlled Nutrient Delivery to Pancreatic Islets Using Polydopamine-Coated Mesoporous Silica Nanoparticles

    • Authors: R. Primavera, J. Wang, P. Buchwald, P. Decuzzi, A.S. Thakor

    • Journal: Nano Letters

    • Year: 2025

    • Type: Article • Open Access

    • Citations: 0

  • Evaluating the Therapeutic Potential of Different Sources of Mesenchymal Stem Cells in Acute Respiratory Distress Syndrome

    • Authors: S. Regmi, A. Ganguly, S. Pathak, S. Patel, A.S. Thakor

    • Journal: Stem Cell Research and Therapy

    • Year: 2024

    • Type: Article • Open Access

    • Citations: 2

  • Correction to: Human Adipose Tissue-Derived Mesenchymal Stem Cells and Their Extracellular Vesicles Modulate Lipopolysaccharide Activated Human Microglia

    • Authors: M. Garcia-Contreras, A.S. Thakor

    • Journal: Cell Death Discovery

    • Type: Erratum • Open Access

    • Original Article Published: 2021

    • Citations: 0

  • Time-course Analysis of Cisplatin Induced AKI in Preclinical Models: Implications for Testing Different Sources of MSCs

    • Authors: A. Ganguly, S.S. Chetty, R. Primavera, J. Wang, A.S. Thakor

    • Journal: Journal of Translational Medicine

    • Year: 2024

    • Type: Article • Open Access

    • Citations: 1

  • Therapeutic Potential of Exosomes Derived from Mesenchymal Stem Cells for Treatment of Systemic Lupus Erythematosus

    • Authors: S.F. Samavati, R. Yarani, S. Kiani, A.S. Thakor, K. Mansouri

    • Type: Review • Open Access

    • Citations: 3

  • Precision Delivery of Therapeutics to the Intestine: A Case Series of Superselective Steroid Administration in Pediatric Intestinal Transplant Recipients

    • Authors: S. Levitte, A.A. Guevara-Tique, A. Ganguly, C.A. Bonham, A.S. Thakor

    • Type: Letter

    • Citations: 1

Conclusion

Dr. Avnesh S. Thakor exemplifies the highest standards of academic research through his visionary innovation, prolific scientific contributions, leadership in clinical translation, and unwavering commitment to mentorship and diversity. His work bridges scientific discovery and real-world healthcare solutions, making him not just a deserving candidate, but an exemplary choice for the Research for Best Academic Researcher Award.

Guobin Wen | Electrocatalysis | Best Researcher Award

Prof. Guobin Wen | Electrocatalysis | Best Researcher Award

Professor at Hunan University, China

Guobin Wen is an accomplished researcher in the field of electrochemical energy systems, with a specialization in carbon dioxide conversion technologies. His career spans significant academic appointments and postdoctoral research roles, marked by a consistent focus on catalysis, reactor design, and sustainable energy solutions. With a foundation in chemical and energy engineering, he has emerged as a prominent figure in the development of nanostructured materials and electrode architectures aimed at addressing environmental and energy challenges through advanced electrochemical processes.

Profile

Google Scholar

Education

Dr. Wen received his foundational education in engineering from Tianjin University, where he completed both his Bachelor’s and Master’s degrees. His bachelor’s project, in collaboration with Procter & Gamble Technology Co., Ltd., involved studying chemical mechanisms in industrial processes. He proceeded to conduct his master’s research on multi-scale simulations of heat exchangers, a study that sharpened his skills in fluid mechanics and thermodynamics. He then pursued a Ph.D. at the University of Waterloo from 2016 to 2020, under the mentorship of Professors Zhongwei Chen, Jeff Gostick, and Eric Croiset. His doctoral research focused on nanostructured catalysts and electrochemical cell design for carbon dioxide conversion and energy storage. Following this, he conducted postdoctoral research at the same institution, further delving into electrode engineering for CO₂ upgrade and electrochemical energy conversion.

Experience

Dr. Wen’s academic journey has been diverse and international. After completing his postdoctoral fellowship at the University of Waterloo in early 2024, he took on a full professorship at Hunan University. In this role, he continues to explore electrocatalysis and reactor design, with a particular focus on improving mass transfer in electrochemical systems. During his postdoctoral tenure, he made pivotal contributions to electrode design and CO₂ electroreduction technologies, often collaborating with multidisciplinary teams. His research blends theory with practical experimentation, making his work valuable for both academic progress and industrial application. His early exposure to applied research through collaborations with industry and research-intensive environments shaped a problem-solving mindset that he carries into his current leadership role in academia.

Research Interest

Dr. Wen’s primary research interests lie in electrochemical energy conversion and storage, carbon dioxide conversion technologies, and materials engineering for next-generation electrodes. He is deeply involved in designing and synthesizing catalytic materials that can drive energy-efficient reactions, particularly those involving CO₂ and nitrogen species. He is also interested in reactor engineering that supports mass transfer enhancements, enabling high-throughput and scalable solutions for carbon-neutral technologies. His approach integrates multiscale modeling, experimental validation, and techno-economic analysis, contributing to a holistic view of sustainable energy systems.

Award

Throughout his academic career, Dr. Wen has received several accolades and recognition for his contributions. During his Ph.D. studies, he received a first-place award at the Tsinghua-Waterloo Joint Forum for a poster on modeling Li-S battery behavior. His work has frequently been featured on journal covers, such as in Angewandte Chemie and Advanced Energy Materials, highlighting the visibility and impact of his research. His selection as a full professor shortly after his postdoctoral fellowship reflects the high regard in which his peers and institutions hold his scholarly output and leadership potential.

Publication

Dr. Wen’s research has been published in some of the most prestigious journals in the fields of energy materials and catalysis. His key publications include:

  1. “Efficient continuous CO₂ electrolysis with superior yield by CO₂ exsolution-induced flow cell,” Nature Energy, 2022 — cited for breakthrough design in flow cells (Impact Factor: 60.86).

  2. “Engineering Electrochemical Surface for Efficient Carbon Dioxide Upgrade,” Advanced Energy Materials, 2022 — cited by 4 articles, exploring CO₂ electroreduction interfaces (Impact Factor: 29.37).

  3. “Ternary Sn-Ti-O Electrocatalyst Boosts the Stability and Energy Efficiency of CO₂ Reduction,” Angewandte Chemie International Edition, 2020 — cited by 30 articles, known for stable catalyst design (Impact Factor: 15.34).

  4. “Insights into multiphase reactions during self-discharge of Li-S batteries,” Chemistry of Materials, 2020 — cited by 24 articles, advancing understanding of lithium-sulfur battery behavior (Impact Factor: 9.81).

  5. “Orbital Interactions in Bi-Sn Bimetallic Electrocatalysts for Highly Selective Electrochemical CO₂ Reduction,” Advanced Energy Materials, 2018 — cited by 183 articles, a landmark study in selective formate production (Impact Factor: 29.37).

  6. “Nano-crumples induced Sn-Bi bimetallic interface pattern for highly efficient CO₂ electroreduction,” Nature Communications, 2022 — emphasizing interface control for high efficiency (Impact Factor: 14.92).

  7. “Two Ships in a Bottle Design for Zn–Ag–O Catalyst Enabling Selective and Long-Lasting CO₂ Electroreduction,” Journal of the American Chemical Society, 2021 — cited by 19 articles, noted for catalyst architecture innovation (Impact Factor: 15.42).

Conclusion

Dr. Guobin Wen has made substantial contributions to the scientific community through his work on energy materials and CO₂ conversion technologies. His deep understanding of electrocatalysis, combined with a commitment to scalable and practical solutions, has made his research not only academically significant but also relevant to global energy and environmental needs. As a rising leader in the field, he continues to shape the future of sustainable energy technologies through both groundbreaking research and mentoring of the next generation of scientists.