Abdoul Karim Saidou | Conflict Resolution & Mediation | Best Researcher Award

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Dr. Abdoul Karim Saidou | Conflict Resolution & Mediation | Best Researcher Award

Political science | The University of  Thomas Sankara | Burkina Faso

Dr. Saidou Abdoul Karim is a distinguished political scientist whose research advances critical understanding of governance, democracy, and security in West Africa. His scholarly contributions explore the complex interactions between political regimes, public policy, and state-building in contexts marked by transition, insecurity, and reform. His research is characterized by a comparative and interdisciplinary approach, bridging political science, sociology of public action, and international relations to examine how African states govern through crises and transformation. Central to his work is the analysis of public policy dynamics, particularly in the areas of security and political reform. He investigates how political regimes shape policy agendas, how institutional instruments influence decision making, and how democratic processes are affected by conflict and instability. His studies frequently focus on Burkina Faso, Niger, and the broader Sahel, addressing the tensions between democracy, governance, and security. His research also engages with the regional dimension of African politics, especially through the role of  in promoting democratic norms and managing security challenges. His numerous peer reviewed publications in leading international journals, such as Democratization, Journal of Modern African Studies, Africa Spectrum, and Afrique Contemporaine, reflect a deep engagement with questions of legitimacy, participation, and power. His writings on the securitization of migration, youth involvement in security policies, gender quotas, and the instrumentalization of democracy contribute to a richer understanding of political change in African societies. His book chapters and collaborative works extend his analysis to regional peace and security mechanisms, the political dimensions of diaspora participation, and the governance of armed conflicts. By combining theoretical innovation with empirical depth, his research provides essential insights into how African states and societies negotiate democracy and security. His work stands as a key contribution to contemporary debates on governance, policy reform, and the political future of the Sahel and West Africa.

Featured Publications

Saidou, A. K., & Bagayoko, S. From euphoria to disenchantment: Temporality and the changing local perceptions of international interventions in Mali. Journal of Intervention and Statebuilding.

Naré, R. H., & Saidou, A. K. Understanding public policy through the lens of political regimes: The case of episodic change in agriculture policy in Burkina Faso  Africa Spectrum.

Saidou, A. K., & Honig, L.  Legitimising regimes and legalising self-defence groups: The case of Burkina Faso’s VDPs. The Journal of Modern African Studies

Saidou, A. K.  L’Afrique face au dilemme des deux analyse constructiviste de la politique étrangère à partir des cas du Niger et du Burkina Faso. Canadian Journal of Political Science.

Saidou, A. K., & Bertrand, E. Security as a campaign issue: Programmatic mobilization in Burkina Faso’s elections.

Michal Kravčík | HR Business Partnering | Best Researcher Award

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Dr. Michal Kravčík | HR Business Partnering | Best Researcher Award

Researcher | The University of People and Water NGO | Slovakia

Michal Kravčík is a Slovak environmental researcher and hydrologist whose work has profoundly influenced modern thinking on water management, climate restoration, and sustainable regional development. His research centers on the interdependence between water cycles, ecosystems, and climate regulation, forming the foundation of the New Water Paradigm, a globally recognized framework for water and climate recovery. This theory emphasizes retaining rainwater within ecosystems to restore the small water cycle, replenish groundwater, regulate temperatures, and support biodiversity. Kravčík’s approach challenges conventional hydrological models that prioritize drainage and diversion, proposing instead that water restoration is essential to reversing climate degradation and desertification. Kravčík’s initiatives, particularly through the Blue Alternative and People and Water, illustrate how decentralized water management can drive both environmental renewal and community empowerment. His integrated approach demonstrates that water restoration serves as a pathway to ecological stability and economic resilience, especially in regions facing high unemployment and social marginalization. By linking hydrology to social innovation, his work has contributed to broader understandings of participatory governance, sustainability, and climate adaptation. His research publications, including Water for the Recovery of the Climate. A New Water Paradigm , Water for the Third Millennium , Between Floods and Droughts and Water Without Borders provide comprehensive insights into how water retention can serve as both a mitigation and adaptation strategy for climate change. These works have become key references for policymakers, environmentalists, and sustainability researchers worldwide. Kravčík’s research influence is reflected in four major publications, 25 citations, and an h-index of 3. His scholarship continues to inspire global environmental discourse, emphasizing that climate recovery and water restoration are inseparable. By integrating ecological science, community action, and systems thinking, Kravčík’s contributions remain central to shaping sustainable water and climate management.

Featured Publication

Kravcik, M., et al. Costs and benefits of landscape-based water retention measures as nature-based solutions to mitigating climate impacts in eastern Germany, Czech Republic, and Slovakia. Land Degradation & Development.

Fabrice Cognasse | Leadership Development | Best Researcher Award

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Dr. Fabrice Cognasse | Leadership Development | Best Researcher Award

Scientific Director | The University of French Blood Establishment (EFS) | France

Dr. Fabrice Cognasse is a distinguished biomedical researcher whose scientific contributions have significantly advanced the fields of immunology, transfusion medicine, and inflammation biology. His research has focused on the complex interactions between platelets, immune cells, and inflammatory mediators, providing groundbreaking insights into the dual role of platelets as hemostatic and immune-modulatory agents. Through a combination of experimental and translational research, his studies have deepened understanding of how platelet-derived molecules influence immune responses, infection control, and pathological inflammation in clinical settings. With an impressive record of 182 peer-reviewed publications, 5,373 citations, and an h-index of 42, Dr. Cognasse’s scholarly work demonstrates both high productivity and sustained impact in biomedical science. His publications appear in leading international journals covering topics such as hematology, immunology, transfusion research, and molecular medicine, where they have contributed to reshaping current concepts of immune regulation and transfusion-related immunomodulation. His research has identified key molecular markers associated with platelet activation and inflammation, supporting the development of novel diagnostic and therapeutic tools aimed at improving transfusion safety and clinical outcomes. The integration of molecular biology, cellular immunology, and translational science within his research has provided a foundation for innovations that enhance patient care and transfusion efficacy. Dr. Cognasse’s work also bridges multiple scientific disciplines through collaborations with international researchers, funding agencies, and research networks. His contributions extend to the design of biomarker-based tools and patented discoveries that advance biomedical research and clinical diagnostics. Collectively, his work exemplifies scientific excellence, leadership in immunohematology, and a lasting influence on global research in platelet biology and inflammation.

Featured Publications

Cognasse, F., Integrating cellular and soluble immune signatures of major depression with and without recent suicide attempts. Translational Psychiatry.

Cognasse, F., The composition of single-donor apheresis platelet concentrates is influenced by the age of the donor. Scientific Reports.

Cognasse, F., Pilot study of ABO-isogroup or universal plasma pools with or without pathogen reduction treatment. Blood Transfusion.

Cognasse, F. Cracking TRALI: targeting the membrane attack complex.  Transfusion Clinique et Biologique.

Cognasse, F.,  Donor-reported stress type affects inflammatory blood markers prior to donation. Transfusion Clinique et Biologique.

Jae Park | Wastewater Treatment | Best Researcher Award

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Prof. Dr. Jae Park | Wastewater Treatment | Best Researcher Award

Professor Emiritus | The University of Univ. of  Wisconsin-Madison | United States

Professor Jae Kwang Park is a leading researcher in Civil and Environmental Engineering, whose scholarly work has significantly advanced the understanding of environmental pollution control, contaminant transport, and sustainable waste and water management systems. His research has focused extensively on the mechanisms governing pollutant dispersion, sorption, and permeation in aquatic and subsurface environments. By integrating principles of hydrodynamics, environmental chemistry, and material science, he has provided deep insights into the fate and transport of organic and inorganic contaminants across engineered and natural barriers. His studies on pollutant dispersion in estuarine systems, for instance, have produced foundational models for analyzing tidal mixing, stratified flow behavior, and mass transport processes that are crucial to understanding pollutant migration in coastal waters.In the field of wastewater and solid waste management, his contributions include the development of advanced treatment technologies using ozonation, photocatalytic oxidation, and membrane filtration to remove persistent organic pollutants. His work on the permeation of volatile organic compounds through geomembranes, polymeric pipes, and landfill liners has been pivotal in assessing the long-term performance of containment systems, directly influencing design standards and environmental protection regulations. He has also explored the use of recycled and synthetic materials, such as shredded tires and geomembranes, for the mitigation of contaminant movement in landfills, bridging the gap between waste reuse and environmental safety.Professor Park’s interdisciplinary research extends to understanding microbiologically influenced corrosion, pyrolysis kinetics of rubber materials, and thermodynamic modeling of sorption in polymers, reflecting his commitment to solving multifaceted environmental engineering challenges through innovative methodologies. His body of work demonstrates both theoretical depth and practical relevance, providing valuable tools for environmental monitoring, infrastructure safety, and pollution prevention.

Profiles:  Scopus | ORCID

Featured Publications

Park, J. K., & Park, J. H. Advanced treatment of wastewater using ozone. Korean Society of Civil Engineers.

Park, J. K., & James, A. Tidal variation of salt flux and dispersion in a polluted estuary. Water Science and Technology.

Park, J. K., & James, A. Modeling of pollutant dispersion in stratified oscillatory flows. Journal of Environmental Engineering.

Park, J. K., & James, A.  Time-varying turbulent mixing in a stratified estuary and the application to a Lagrangian 2-D model. Estuarine, Coastal and Shelf Science.

Park, J. K., & James, A.  A unified method of estimating longitudinal dispersion in estuaries. Water Science and Technology.

Paul Reaidy | Conflict Resolution | Best Researcher Award

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Prof. Dr. Paul Reaidy | Conflict Resolution | Best Researcher Award

Professor | The University of  Grenoble IAE – INP | France

Prof. Dr. Paul Reaidy is a distinguished academic in Management Sciences recognized for his exceptional contributions to supply chain research and industrial innovation.  Professionally, he has served as a logistics and supply chain consultant with global organizations such as Capgemini Consulting Group and Michelin Industry, where he developed practical expertise in operational optimization, integration, and digital transformation of supply networks. His research interests encompass supply chain integration, resilience, Industry 4.0, blockchain arbitration, and sustainable logistics, areas in which he has published extensively in high-impact international journals including Production Planning & Control, Business Process Management Journal, and The International Journal of Logistics Management. With 11 publications, 683 citations, and an h-index of 11, his work has made significant academic and practical contributions to advancing intelligent and collaborative supply chain models. His research skills span quantitative modeling, multi-criteria decision analysis, blockchain applications, and big data analytics for logistics, supported by strong methodological and analytical rigor. As a member of (Center for Applied Studies and Research in Management), he has actively engaged in collaborative projects focusing on digitalization and supply chain sustainability. His achievements and growing citation influence reflect his commitment to excellence and leadership in academic research. In conclusion, Prof. Reaidy exemplifies a modern scholar integrating engineering precision with managerial innovation, contributing meaningfully to the development of resilient and technology-driven supply chain ecosystems. His multidisciplinary expertise, impactful publications, and collaborative research vision continue to position him as a key contributor to the future of global supply chain management and industrial digital transformation. ooking ahead, Prof. Reaidy’s future research potential is substantial and forward-looking. He is well-positioned to lead innovative projects on resilient, data-driven, and human-centric supply chain ecosystems leveraging AI, blockchain, and IoT convergence. His recent focus on blockchain arbitration and circular supply chains indicates a progressive orientation toward ethical and sustainable digital transformation. Future directions may include advancing frameworks for AI-enabled dispute resolution, smart contract governance, and collaborative logistics under uncertain environments. With his established citation influence and interdisciplinary expertise, Prof. Reaidy is poised to become a leading thought leader driving the next generation of intelligent, transparent, and sustainable supply chain systems on a global scale.

Profile: Google Scholar

Featured Publications

Reaidy, P. J., Gunasekaran, A., & Spalanzani, A. Bottom-up approach based on Internet of Things for order fulfillment in a collaborative warehousing environment. International Journal of Production Economics.

Reaidy, P. J., Massotte, P., & Diep, D. Comparison of negotiation protocols in dynamic agent-based manufacturing systems. International Journal of Production Economics.

Makaci, M., Reaidy, P., Evrard-Samuel, K., Botta-Genoulaz, V., & Monteiro, T. Pooled warehouse management: An empirical study. Computers & Industrial Engineering.

Alaeddini, M., Hajizadeh, M., & Reaidy, P. A bibliometric analysis of research on the convergence of artificial intelligence and blockchain in smart cities. Smart Cities.

Reaidy, P., Alaeddini, M., Gunasekaran, A., Lavastre, O., & Shahzad, M. Unveiling the impact of Industry 4.0 on supply chain performance: The mediating role of integration and visibility. Production Planning & Control.

Reaidy, P. J., Lavastre, O., Ageron, B., & Chaze-Magnan, L. Consumer integration in supply chain management: A taxonomy. Supply Chain Forum: An International Journal.

Juan Xu | Women in Leadership | Best Researcher Award

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Mrs. Juan xu | Women in Leadership | Best Researcher Award

NCWU at The University of North China University of Water Resources and Electric Power | China

Mrs. Xu Juan is a dedicated Lecturer at the School of Electrical Engineering, North China University of Water Resources and Electric Power, recognized for her strong academic foundation and research excellence in electronic science and energy storage materials. She earned her Ph.D. in Electronic Science and Technology from Huazhong University of Science and Technology , following a solid academic path that included a Bachelor’s degree in Physics from Xinxiang University and postgraduate studies in Electronic Science and Technology at the same institution. Since joining her current university in 2018, she has actively engaged in teaching and research, contributing significantly to the fields of zinc-ion and sodium-ion batteries, supercapacitors, and nanostructured materials. Her research interests focus on cation doping regulation, oxygen vacancy engineering, and advanced energy storage technologies, aiming to enhance electrochemical performance and energy efficiency. Mrs. Xu has published 24 scientific papers, receiving 80 citations with an h-index of 5, showcasing her growing academic influence. Her technical expertise includes materials synthesis, electrochemical analysis, and nanomaterial interface engineering, combining theoretical understanding with experimental innovation. She has also contributed to two Chinese patents and was part of a research team that won the Henan Provincial First-Class Award for Scientific and Technological Progress for advancements in high-power nonlinear optical terahertz radiation sources. Her professional strengths lie in collaborative research, analytical problem-solving, and high-quality scholarly output. Looking ahead, Mrs. Xu aims to expand her research through interdisciplinary collaborations and explore next-generation flexible and sustainable energy storage systems. With her academic excellence, innovative mindset, and strong commitment to scientific advancement, she continues to be a promising scholar contributing meaningfully to the development of modern energy technologies.

Profile:  SCOPUS

Featured Publications

Authors unavailable. Enhancing interfacial electron transfer by gradiently constructing polyaniline electron bridge between MOF and MnOx for high-performance flexible supercapacitors. Journal of Power Sources.

Authors unavailable. The optimal integrating state of VOx with the synergistic effect of Cu²⁺ cation and polyaniline for high-performance flexible fiber zinc-ion battery. Journal of Energy Storage.

Junqiao Hong | Learning & Development | Best Researcher Award

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Dr. Junqiao Hong | Learning & Development | Best Researcher Award

Lecturer at The University of  Southwestern University of Finance and Economics | China

Dr. Junqiao Hong is a distinguished researcher and lecturer at the Southwestern University of Finance and Economics, with a PhD from Renmin University of China. He specializes in rural development, labor migration, and climate change, contributing significantly to understanding the socioeconomic and environmental dynamics in China. Dr. Hong has an impressive academic and professional track record, including publications in high-impact journals such as the Journal of Economic Behavior and Organization and Climate Policy, reflecting his expertise in rigorous quantitative and policy-oriented research. His professional experience encompasses teaching, mentoring, and conducting applied research at the Institute of Western China Economic Research, where he examines the impact of poverty alleviation relocation on rural households’ migration decisions and livelihood vulnerability, as well as analyzing the effects of wildfires on different types of property. He possesses strong research skills in data analysis, field surveys, policy evaluation, and socioeconomic modeling, enabling him to generate insights with practical relevance for policymakers and communities. Dr. Hong is a member of the Beijing Association of Agricultural Economics, highlighting his commitment to professional engagement and scholarly collaboration. While he has yet to engage extensively in editorial roles or consultancy projects, his focused research contributions have already garnered recognition, positioning him for future awards and professional honors in economic and environmental research. Looking ahead, Dr. Hong demonstrates strong potential to advance knowledge at the intersection of climate policy and rural economic development, with opportunities to expand interdisciplinary collaborations, develop innovative methodologies, and influence policy formulation. Overall, Dr. Hong exemplifies a dedicated, impactful researcher and educator whose work not only advances academic understanding but also addresses real-world challenges, establishing him as a leading figure in his field with considerable promise for continued scholarly excellence and societal contribution.

Profile:  ORCID

Featured Publications

 Wang, X., Deng, X., Hong, J., Jian, W., & Yang, Z. The impact of wildfires on local property values in Wisconsin, United States. Climate Policy. Advance online publication.

 Qiu, H., Hong, J., Wang, X., & Filipski, M. Home sweet home: Impacts of living conditions on worker migration with evidence from randomized resettlement in China. Journal of Economic Behavior & Organization. Advance online publication.

 Hong, J., Liu, M., Qiu, H., & Feng, X. Can a poverty alleviation programme really help vulnerable rural households? Insights from China. Applied Economics. Advance online publication.