Salah-Eddine Chorfi | Rewards & Recognition | Young Researcher Award

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Assist. Prof. Dr. Salah-Eddine Chorfi | Rewards & Recognition | Young Researcher Award

Assistant Professor | The University of Cadi Ayyad University | Morocco

Dr. Salah-Eddine Chorfi is an applied mathematician whose research lies at the intersection of inverse problems, control theory, and the analysis of partial differential equations. His work focuses on developing rigorous mathematical frameworks to address fundamental questions related to identification, stability, and controllability in complex dynamical systems. A key aspect of his research involves studying equipped with dynamic boundary conditions, which arise in models describing diffusion, heat transfer, and wave propagation in heterogeneous media. Chorfi’s contributions span multiple interrelated themes. He investigates inverse source problems, coefficient determination, and initial data reconstruction using advanced tools such as Carleman estimates, semigroup theory, and logarithmic convexity methods. These approaches enable the establishment of uniqueness and quantitative stability results for parabolic, hyperbolic, and time-fractional evolution equations. His work also explores the control and stabilization of PDEs, including null controllability, impulsive control, and finite-time stabilization, offering new insights into systems governed by coupled or degenerate equations. Another significant direction in his research is the analysis of time-fractional diffusion models and mean field game systems, where he examines backward problems, non-symmetric operators, and degenerate dynamics. His investigations contribute to bridging theoretical PDE analysis with computational and applied challenges, particularly in contexts where data are incomplete or the underlying systems are ill-posed. Chorfi has authored 23 scientific documents, which collectively have received 67 citations, resulting in an h-index of 7. His work is published in highly regarded journals including Evolution Equations and Control Theory, Journal of Mathematical Analysis and Applications, Mathematical Methods in the Applied Sciences, Applicable Analysis, Inverse Problems, and others. Through his collaborations with researchers in analysis, control theory, and mathematical modeling, he contributes to advancing modern approaches to inverse problems and dynamical systems. His research continues to influence emerging methodologies for understanding complex driven phenomena in both theoretical and applied settings.

Featured Publications

Chorfi, S. E., Habbal, A., Jahid, M., Maniar, L., & Ratnani, A. Stability of backward inverse problems for degenerate mean field game systems.

Chorfi, S.-E., Ismailov, M. I., Maniar, L., & Oner, I. Boundary null controllability of the heat equation with Wentzell boundary condition and Dirichlet control.

Mrs. Ada Wong | Rewards & Recognition | Best Researcher Award

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Mrs. Ada Wong | Rewards & Recognition | Best Researcher Award

Community Affair Chinese Community Partnership for Health | The University of New York Presbysterian Hosptial | United States

Ada M. Wong, is a researcher and professional recognized for her contributions to the fields of health information management, community health systems, and healthcare administration. Her scholarly and professional work focuses on strengthening the integration between data governance, public health strategy, and organizational performance within healthcare institutions. Wong’s academic background in health information management provides a strong analytical foundation for exploring how structured data systems can drive equitable and efficient healthcare delivery. Her research interests encompass healthcare information systems, medical data quality, and the optimization of clinical and administrative processes through evidence-based management. Wong’s work emphasizes the role of digital transformation in enhancing patient-centered care, promoting interoperability, and improving community health outcomes. She advocates for leveraging health information management as a strategic tool for decision-making, public policy support, and sustainable healthcare innovation. In her scholarly publications, Wong addresses emerging challenges in managing complex health networks, developing standardized reporting frameworks, and improving organizational transparency. Her studies contribute to understanding how data-driven strategies can be applied to bridge healthcare disparities, improve service delivery, and enhance communication between providers, administrators, and policymakers. Across her academic record, Wong has authored 2 research documents, accumulating 52 citations and an h-index of 2. These metrics reflect her growing influence in advancing discussions around healthcare data utilization and system reform. Her contributions demonstrate a commitment to integrating information science with public health goals, positioning her as a valuable voice in contemporary health management discourse. Through her applied research and leadership insights, Wong continues to promote innovation and accountability in healthcare information practices, supporting more resilient, responsive, and community-oriented health systems.

Featured Publication

Chen, Y., Li, X., Wong, A. M., & Zhang, J.  Adaptation of diabetes prevention program for Chinese Americans  a qualitative study. BMC Public Health.

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.