Qing Li | Applied Mathematics | Innovative Research Award

Innovative Research Award

Qing Li
Tianmushan Laboratory

Qing Li
Affiliation Tianmushan Laboratory
Country China
Scopus ID 57216336684
Documents 8
Citations 8
h-index 2
Subject Area Applied Mathematics
Event Math Scientist Awards

The Innovative Research Award recognition highlights the scholarly achievements and research contributions of Qing Li, a researcher affiliated with Tianmushan Laboratory, China. Her work spans applied mathematics, computational physics, fluid mechanics, particle dynamics, and high-performance scientific computing. Through a combination of theoretical analysis, numerical simulation, and interdisciplinary collaboration, Li has contributed to the understanding of particle-flow interactions and computational methodologies relevant to modern engineering and scientific applications.[1]

Abstract

Qing Li’s research portfolio demonstrates engagement with mathematical modeling, fluid dynamics, particle transport phenomena, and computational simulation. Her published studies investigate particle behavior near walls, stagnation-point flow dynamics, viscous damping mechanisms, and numerical approaches for particle-laden flow simulations. These contributions provide insights into transport processes that are relevant to engineering systems, computational mechanics, and applied mathematical research.[2]

Keywords

Applied Mathematics; Fluid Mechanics; Particle Dynamics; Computational Physics; Turbulent Flow; High-Performance Computing; Numerical Simulation; Scientific Computing.

Introduction

Advances in computational mathematics increasingly rely on sophisticated models capable of describing multiphase systems and particle-fluid interactions. Qing Li’s work contributes to this domain by examining complex transport processes through mathematical and computational techniques. Her studies address practical and theoretical challenges associated with particle motion, collision dynamics, and numerical efficiency in scientific simulations.[3]

Research Profile

According to available scholarly records, Qing Li has authored multiple publications indexed in international databases and has participated in collaborative research involving fluid mechanics, applied mathematics, and computational modeling. Her work reflects interdisciplinary engagement between mathematical theory and computational implementation, supporting the advancement of simulation-based scientific investigation.[1]

Research Contributions

  • Investigation of near-wall dynamics of neutrally buoyant spherical particles in axisymmetric stagnation-point flows.
  • Analysis of viscous damping effects and particle collision behavior near solid boundaries.
  • Research on inertial and collisional particle effects on skin friction within turbulent channel flows.
  • Development of dynamic linked-list-based parallel particle solvers for high-performance computing environments.
  • Contribution to scientific innovation through 10 patents published or under process in China.

Publications

  1. Li Q, Abbas M, Morris JF, Climent E, Magnaudet J. Near-wall dynamics of a neutrally buoyant spherical particle in an axisymmetric stagnation point flow. Journal of Fluid Mechanics, 2020.
  2. Qing Li, Micheline Abbas, Jeffrey F. Morris. Particle approach to a stagnation point at a wall: Viscous damping and collision dynamics. Physical Review Fluids, 2020.
  3. Jingyuan Bi, Jiaxin Tan, Chuanhong Zhang, Qing Li. Effect of inertial and collisional particles on the skin friction of fully developed turbulent channel flow. Physics of Fluids, 2026.
  4. Jingyuan Bi, Jiaxin Tan, Chuanhong Zhang, Qing Li. Dynamic Linked List Based Parallel Point-Particle Solver for High-Performance Computing. Computer Physics Communications.

Research Impact

The significance of Li’s research lies in its contribution to understanding particle transport and computational simulation methodologies. Such studies support applications in engineering analysis, fluid transport systems, industrial process modeling, and numerical algorithm development. Her scholarly outputs, combined with patent activity, indicate engagement in both fundamental research and innovation-oriented scientific work.[4]

Award Suitability

Qing Li’s academic profile aligns with the objectives of the Innovative Research Award due to her contributions to applied mathematics and computational science. Her publications address contemporary scientific challenges, while her patent portfolio reflects efforts toward technological advancement and practical implementation. The combination of peer-reviewed research, interdisciplinary collaboration, and innovation activities provides a suitable basis for recognition within the Math Scientist Awards framework.[5]

Conclusion

Qing Li represents a researcher whose work integrates mathematical analysis, computational techniques, and engineering applications. Her studies in fluid mechanics, particle dynamics, and scientific computing contribute to the broader advancement of applied mathematical sciences. Through published research and innovation activities, she has established a scholarly profile consistent with recognition for innovative research achievement.[6]

References

  1. Elsevier. (n.d.). Scopus author details: Qing Li, Author ID 57216336684. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57216336684
  2. Li Q., Abbas M., Morris J.F., Climent E., Magnaudet J. (2020). Near-wall dynamics of a neutrally buoyant spherical particle in an axisymmetric stagnation point flow. Journal of Fluid Mechanics.
  3. Li Q., Abbas M., Morris J.F. (2020). Particle approach to a stagnation point at a wall: Viscous damping and collision dynamics. Physical Review Fluids.
    https://doi.org/10.1103/PhysRevFluids.5.104301
  4. Bi J., Tan J., Zhang C., Li Q. (2026). Effect of inertial and collisional particles on the skin friction of fully developed turbulent channel flow. Physics of Fluids.
  5. Computer Physics Communications. Dynamic Linked List Based Parallel Point-Particle Solver for High-Performance Computing.
  6. Math Scientist Awards. Innovative Research Award Recognition Framework.
    https://mathscientists.com/

Briyan Castillo | Mathematical Modeling | Young Scientist Award

Young Scientist Award

Bryan Castillo Torres
Universidad Santiago de Cali (USC), Colombia
Bryan Castillo Torres
Affiliation Universidad Santiago de Cali (USC)
Country Colombia
Scopus ID 57226784500
Documents 15+
Citations 120+
h-index 6
Subject Area Structural Engineering, Real-Time Hybrid Simulation, Structural Health Monitoring
Event Math Scientist Awards
ORCID 0009-0005-7782-1162

Bryan Castillo Torres is a Colombian civil engineer and researcher whose academic and experimental contributions have focused on structural dynamics, real-time hybrid simulation (RTHS), structural health monitoring, and human–structure interaction in civil infrastructure systems. His work has contributed to the advancement of resilient structural assessment methodologies through the integration of experimental testing, computational modeling, and multi-axial dynamic analysis. His research activities have involved seismic isolation systems, pedestrian bridge dynamics, vibration control technologies, and hybrid simulation frameworks designed for contemporary infrastructure engineering applications.

Abstract

This article presents an academic overview of Bryan Castillo Torres and his research profile in the field of structural engineering and dynamic infrastructure assessment. His scholarly activities emphasize real-time hybrid simulation methodologies, seismic performance assessment, structural control systems, human–structure interaction, and multi-axial dynamic experimentation. Through publications in internationally indexed journals and collaborative engineering research projects, Castillo Torres has contributed to the development of resilient structural systems and experimental evaluation frameworks for civil engineering applications.[3] His work combines computational mechanics, laboratory experimentation, and vibration analysis techniques to address contemporary engineering challenges associated with seismic resilience and infrastructure performance.[4]

Keywords

Real-Time Hybrid Simulation, Structural Dynamics, Human–Structure Interaction, Seismic Isolation, Structural Health Monitoring, Civil Infrastructure, Dynamic Testing, Structural Control, Resilient Structures, Experimental Mechanics.

Introduction

Research in structural dynamics and resilient infrastructure systems has become increasingly important due to the growing demand for sustainable and earthquake-resistant engineering solutions. Contemporary civil engineering research frequently integrates computational simulation, hybrid experimental methods, and advanced sensing technologies to evaluate the performance of structures under dynamic loading conditions.

Bryan Castillo Torres has participated in several academic and applied research initiatives associated with the Universidad del Valle and related engineering institutions in Colombia. His research interests include real-time hybrid simulations, dynamic assessment of structural control devices, structural health monitoring, and the development of innovative experimental frameworks for infrastructure evaluation.[6] His work has contributed to the integration of laboratory experimentation with computational structural analysis in both seismic and pedestrian-induced dynamic environments.

Research Profile

Castillo Torres completed undergraduate, specialist, master’s, and doctoral studies at Universidad del Valle in Colombia, specializing in civil engineering and solid mechanics. His doctoral research focused on innovative multi-experimental performance assessment of civil infrastructure under dynamic loads using real-time hybrid simulation methodologies.

Throughout his academic career, he has worked as a teaching assistant, research assistant, and structural engineer in industrial extension projects related to structural testing and resilient infrastructure development. His research profile demonstrates interdisciplinary integration between structural mechanics, experimental engineering, and vibration control technologies.

  • Dynamic testing using Real-Time Hybrid Simulation systems.
  • Structural health monitoring and multiaxial sensor evaluation.
  • Human–structure interaction assessment in pedestrian bridges.
  • Experimental seismic isolation and vibration control systems.
  • Development of resilient infrastructure testing frameworks.

Research Contributions

A significant portion of Castillo Torres’s contributions has involved the application of real-time hybrid simulation methodologies to evaluate seismic and dynamic performance in low-rise reinforced concrete structures.[9] His publications explore hybrid semi-active and passive structural control systems, dynamic structural behavior, and the evaluation of seismic isolation devices under experimental conditions.

His research on pedestrian bridge dynamics has examined the influence of human gait and lateral harmonic movement on structural systems. These studies have integrated biomechanical modeling, multiaxial testing frameworks, and dynamic sensing technologies to evaluate structural response characteristics.[10]

In addition to journal publications, Castillo Torres has participated in international engineering conferences and collaborative research projects associated with structural control and experimental mechanics. His work also includes patent-related initiatives concerning isolation devices and dynamic load assessment systems.

Publications

  1. “Comprehensive assessment of the seismic performance of an innovative hybrid semi-active and passive state control system for a low-degree-of-freedom structure using Real-Time Hybrid Simulation.” Structural Control and Health Monitoring (2024). DOI:
    https://doi.org/10.1155/2024/9945556
  2. “Seismic performance assessment of a low-rise Reinforced Concrete Thin Wall building with Unconnected Fiber Reinforced Elastomeric Isolators as base isolation system using Real-Time Hybrid Simulations.” Journal of Building Engineering (2024). DOI:
    https://doi.org/10.1016/j.jobe.2024.109303
  3. “Experimental evaluation of pedestrian-induced multiaxial gait loads on footbridges.” Sensors (2024). DOI:
    https://doi.org/10.3390/s24082517
  4. “Assessing spatiotemporal behavior of human gait: a comparative study between smartphone-based mocap and OptiTrack systems.” Experimental Techniques (2024). DOI:
    https://doi.org/10.1007/s40799-024-00716-x

Research Impact

The research activities of Castillo Torres have contributed to the advancement of resilient infrastructure assessment through experimental and computational engineering methodologies. His work on seismic performance evaluation and dynamic testing frameworks has relevance for structural safety, infrastructure sustainability, and vibration mitigation research.

Several of his publications have appeared in peer-reviewed journals specializing in structural control, building engineering, sensors, and applied mechanics. His collaborative research outputs indicate continued engagement in multidisciplinary infrastructure engineering studies involving dynamic simulation, sensing technologies, and experimental validation techniques.

Award Suitability

Bryan Castillo Torres demonstrates a research profile aligned with the objectives of the Best Innovator Award through his interdisciplinary engineering contributions involving experimental structural analysis, hybrid simulation systems, and dynamic infrastructure assessment. His research portfolio combines theoretical modeling, experimental implementation, and practical engineering evaluation frameworks for resilient civil structures.

His academic record includes internationally indexed publications, conference presentations, collaborative research initiatives, and innovation-oriented engineering developments associated with structural testing systems and dynamic evaluation methodologies. Recognition through awards related to structural control and experimental techniques further reflects the academic visibility of his contributions within the field of civil and structural engineering.

Conclusion

Bryan Castillo Torres has established a research trajectory centered on structural dynamics, real-time hybrid simulations, and resilient infrastructure engineering. His work integrates advanced experimental methodologies with practical civil engineering applications, contributing to ongoing developments in structural control, seismic resilience, and human–structure interaction analysis. Through scholarly publications, engineering collaborations, and innovation-driven research activities, he has contributed to contemporary discussions surrounding experimental structural engineering and dynamic infrastructure assessment.

 

References

  1. Castillo, B., Ceron, D., Vides, S., Marulanda, J., & Thomson, P. (2024). Comprehensive assessment of the seismic performance of an innovative hybrid semi-active and passive state control system.
    https://doi.org/10.1155/2024/9945556
  2. Castillo, B., et al. (2024). Seismic performance assessment using Real-Time Hybrid Simulations. Journal of Building Engineering.
    https://doi.org/10.1016/j.jobe.2024.109303
  3. Castillo, B., Artunduaga, E., Marulanda, J., Thomson, P., & Ortiz, A. (2024). Multi-experimental seismic analysis using hybrid simulations.
    https://doi.org/10.1177/13694332241281525
  4. Castillo, B., Marulanda, J., & Thomson, P. (2024). Experimental evaluation of pedestrian-induced multiaxial gait loads on footbridges.
    https://doi.org/10.3390/s24082517

Tegegne Getachew | Applied Mathematics | Research Excellence Award

Dr. Tegegne Getachew | Applied Mathematics | Research Excellence Award

Mekdela Amba University | Ethiopia

Dr. Tegegne Getachew is an applied mathematics researcher affiliated with Mekdela Amba University, Ethiopia. He has contributed 13 publications with 32 citations and an h-index of 4. His research focuses on nonlinear differential equations and mathematical analysis, demonstrating consistent academic growth and contributions to theoretical and applied mathematical sciences.

Citation Metrics (Scopus)

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32

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13

h-index
4


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Featured Publications

Shao-Wen Yao | Applied Mathematics | Research Excellence Award

Prof. Dr. Shao-Wen Yao | Applied Mathematics | Research Excellence Award

Professor | Henan Polytechnic University | China

Prof. Dr. Shao-Wen Yao is a mathematician at Henan Polytechnic University, China, whose research focuses on applied and computational mathematics, particularly nonlinear dynamical systems and fractional differential equations. His work addresses complex phenomena in epidemic modeling, eco-epidemiological prey–predator systems, chaotic dynamics, and diffusion processes. He is known for developing analytical and semi-analytical methods to study stability, qualitative behavior, and numerical simulation of nonlinear models. His research contributes to both theoretical mathematical analysis and real-world applications in science and engineering.

Citation Metrics (Scopus)

3000

2400

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2,829

Documents
151

h-index
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John Paulo Serwelas | Applied Mathematics | Mathematical Engineering Excellence Award

Prof. John Paulo Serwelas | Applied Mathematics | Mathematical Engineering Excellence Award

Author at Mapua University | Philippines

Prof. John Paulo Serwelas is a faculty member at Mapúa University, Philippines, whose research focuses on structural and materials engineering, particularly the performance of reinforced concrete structures under corrosion effects. His work integrates experimental investigation and analytical modeling to evaluate bonding strength and durability in corroded reinforced concrete using electrochemical measurement techniques such as half-cell potential analysis. Through his research, he contributes to improving structural safety, durability assessment, and sustainable infrastructure design in civil engineering.

Featured Publication

Bahadır Kopcasız | Applied Mathematics | Best Researcher Award

Dr. Bahadır Kopcasız | Applied Mathematics | Best Researcher Award

Istanbul Gelisim University | Turkey

Dr. Bahadır Kopçasız is an accomplished Assistant Professor in the Department of Basic Sciences, Faculty of Engineering and Architecture at Istanbul Gelişim University, Turkey, with expertise in applied mathematics and interdisciplinary research. He earned his Ph.D. in Mathematics from Bursa Uludağ University in 2024, where his doctoral research centered on nonlinear Schrödinger-type equations, and previously completed his M.Sc. in Mathematics from Yeditepe University in 2018. His professional experience encompasses both teaching and research, covering courses such as differential equations, numerical analysis, probability, and applied mathematics, while simultaneously contributing to a wide range of international collaborations across Europe and the Middle East. His primary research interests include nonlinear partial differential equations, soliton theory, Lie symmetries, and the development of analytical and numerical methods, with additional engagement in machine learning applications and sustainability optimization problems. Dr. Kopçasız has strong research skills in modeling, stability analysis, and solution techniques for nonlinear systems, and his work has been widely recognized in indexed journals and conferences of international repute. He has published 19 Scopus-indexed documents with 195 citations by 104 documents and an h-index of 10, further contributing to a total of more than 28 peer-reviewed journal articles, particularly in high-impact applied mathematics and mathematical physics outlets. He is actively involved in ongoing projects such as the integration of machine learning with vehicle routing optimization, reflecting his interdisciplinary vision. Honors in his career include recognition with the “Best Researcher Award” in 2025, acknowledging his growing impact in advancing mathematical sciences. His collaborative work with leading scholars has further enriched his academic contributions, and his efforts extend beyond research to mentoring students and contributing to the broader scientific community. In conclusion, Dr. Bahadır Kopçasız exemplifies a dedicated researcher whose expertise, publications, and awards highlight his strong potential for continued innovation and leadership in applied mathematics on an international scale.

Profiles: Scopus | Google Scholar | ORCID

Featured Publications

  1. Kopçasız, B., & Yaşar, E. (2022). The investigation of unique optical soliton solutions for dual-mode nonlinear Schrödinger’s equation with new mechanisms. Journal of Optics, 1–15. Citations: 51

  2. Kopçasız, B., & Yaşar, E. (2022). Novel exact solutions and bifurcation analysis to dual-mode nonlinear Schrödinger equation. Journal of Ocean Engineering and Science. Citations: 32

  3. Kopçasız, B., & Yaşar, E. (2024). Dual-mode nonlinear Schrödinger equation (DMNLSE): Lie group analysis, group invariant solutions, and conservation laws. International Journal of Modern Physics B, 38(02), 2450020. Citations: 30

  4. Kopçasız, B. (2024). Qualitative analysis and optical soliton solutions galore: scrutinizing the (2+1)-dimensional complex modified Korteweg–de Vries system. Nonlinear Dynamics, 112(23), 21321–21341. Citations: 28

  5. Kopçasız, B., & Yaşar, E. (2025). Inquisition of optical soliton structure and qualitative analysis for the complex-coupled Kuralay system. Modern Physics Letters B, 39(15), 2450512. Citations: 8

 

Qi Zhang | Mathematical Modeling | Best Researcher Award

Assoc. Prof. Dr. Qi Zhang | Mathematical Modeling | Best Researcher Award

Senior Researcher at Shandong University, China

Dr. Qi Zhang 👨‍🔬, an Associate Senior Researcher at the School of Control Science and Engineering, Shandong University 🇨🇳, is a leading expert in electric vehicles 🚗, lithium-ion batteries 🔋, and power battery management. With a strong focus on energy optimization and modeling, he has contributed extensively to top-tier journals as an Editor-in-Chief, Guest Editor, and reviewer ✍️. A respected member of IEEE and several national academic committees 🏅, Dr. Zhang has organized and chaired major international conferences, shaping the future of clean energy and smart mobility 🌍. His active involvement in editorial boards and special issues demonstrates his influence in advancing electrochemical energy research ⚡. A passionate academic, Dr. Zhang combines innovation, collaboration, and impact, making him a recognized name in sustainable technology and battery systems research. 📘🔬

Professional Profile 

🎓 Education

Dr. Qi Zhang pursued his academic journey in engineering with a strong foundation in control science and power systems ⚙️. His higher education equipped him with advanced knowledge in battery management systems, lithium-ion technology, and electrical vehicle engineering 🔋🚗. With a keen interest in applied research, he specialized in battery modeling and system optimization, aligning his studies with pressing global energy challenges 🌱. His academic background laid the groundwork for his impactful research in energy storage and control systems, supported by hands-on experimentation and computational modeling 📚💡. Dr. Zhang’s education has not only shaped his technical abilities but also nurtured his analytical mindset, fostering a deep commitment to innovation, sustainable mobility, and academic excellence 📖🏅.

💼 Professional Experience

Dr. Qi Zhang is an Associate Senior Researcher at the School of Control Science and Engineering, Shandong University 🇨🇳. With years of dedicated service, he has established himself as a key contributor in electric vehicle technologies and battery systems 🔌🚘. He has taken on multiple leadership roles including Editor-in-Chief, Guest Editor, and Session Chair at international conferences such as ICIEA and NESD 📊🌐. His professional affiliations include IEEE, AEIC, and Chinese Electrotechnical Society, reflecting his deep integration into global research networks 🤝. Dr. Zhang’s work spans across research, academic mentorship, and peer review, demonstrating a balanced blend of theory and real-world application. His industry collaborations and research leadership showcase a career marked by innovation, reliability, and technical excellence 📈🔍.

🔬 Research Interests

Dr. Zhang’s research is centered on electric vehicles, lithium-ion batteries, and power battery modeling and management systems 🚗🔋. His work focuses on enhancing the efficiency, safety, and performance of energy storage and electric mobility systems through smart algorithms and control strategies 🤖📡. He investigates battery thermal dynamics, charging protocols, and electrochemical modeling to improve reliability and longevity of EV systems ⏱️⚡. Additionally, his interest in fractional-order systems and data-driven approaches positions him at the forefront of next-gen battery technology. Dr. Zhang’s interdisciplinary focus bridges the gap between control science, energy sustainability, and intelligent transport systems 🛣️🌍. His research contributes significantly to the green energy transition, paving the way for smarter and more sustainable mobility solutions 🌱🧠.

🏅 Awards and Honors

Dr. Qi Zhang’s dedication to academic excellence has earned him numerous accolades 🌟. Recognized as an Outstanding Reviewer by top-tier journals like ISA Transactions and Electrical Engineering, he has demonstrated rigorous scholarly commitment and peer evaluation integrity 🧾🔍. His editorial leadership in special issues of Symmetry, Energies, Electrochem, and Electronics underlines his recognition as a thought leader in battery research and energy systems 🔋📘. In addition, his roles in professional societies, including IEEE membership and his inclusion in academic committees across Asia and Singapore 🇸🇬, affirm his influential standing. These honors reflect his consistent impact on the field and his dedication to collaborative progress in clean energy and vehicle electrification ⚡🚗.

🛠️ Research Skills

Dr. Zhang exhibits a diverse and sophisticated research skillset encompassing battery modeling, control system design, thermal analysis, and intelligent battery management 🧠💻. His proficiency in computational tools and system simulations allows him to address complex engineering challenges with precision. He is adept at leading multidisciplinary projects, organizing special issues, and reviewing for globally reputed journals, showcasing his editorial and analytical acumen 📈📝. Additionally, his technical expertise extends to data analysis, algorithm design, and hybrid energy systems, enabling impactful contributions in sustainable technology. With strong communication skills, project coordination capabilities, and collaborative leadership, Dr. Zhang bridges theory and application seamlessly. His combination of technical depth and academic influence positions him as a forward-thinking researcher and innovator 🌐🔬.

Publications Top Note 📝

  • Title: A novel fractional variable-order equivalent circuit model and parameter identification of electric vehicle Li-ion batteries
    Authors: Q. Zhang, Y. Shang, Y. Li, N. Cui, B. Duan, C. Zhang
    Year: 2020
    Citations: 138
    Source: ISA Transactions, Vol. 97, pp. 448–457

  • Title: Remaining useful life prediction of lithium‐ion battery based on extended Kalman particle filter
    Authors: B. Duan, Q. Zhang, F. Geng, C. Zhang
    Year: 2020
    Citations: 124
    Source: International Journal of Energy Research, Vol. 44(3), pp. 1724–1734

  • Title: Co-estimation of model parameters and state-of-charge for lithium-ion batteries with recursive restricted total least squares and unscented Kalman filter
    Authors: R. Zhu, B. Duan, J. Zhang, Q. Zhang, C. Zhang
    Year: 2020
    Citations: 109
    Source: Applied Energy, Vol. 277, Article 115494

  • Title: A sine-wave heating circuit for automotive battery self-heating at subzero temperatures
    Authors: Y. Shang, K. Liu, N. Cui, Q. Zhang, C. Zhang
    Year: 2019
    Citations: 95
    Source: IEEE Transactions on Industrial Informatics, Vol. 16(5), pp. 3355–3365

  • Title: Multicell-to-Multicell Equalizers Based on Matrix and Half-Bridge LC Converters for Series-Connected Battery Strings
    Authors: Y. Shang, Q. Zhang, N. Cui, B. Duan, Z. Zhou, C. Zhang
    Year: 2019
    Citations: 90
    Source: IEEE Journal of Emerging and Selected Topics in Power Electronics, Vol. 8(2)

  • Title: A cell-to-cell equalizer based on three-resonant-state switched-capacitor converters for series-connected battery strings
    Authors: Y. Shang, Q. Zhang, N. Cui, C. Zhang
    Year: 2017
    Citations: 84
    Source: Energies, Vol. 10(2), Article 206

  • Title: An optimized mesh-structured switched-capacitor equalizer for lithium-ion battery strings
    Authors: Y. Shang, Q. Zhang, N. Cui, B. Duan, C. Zhang
    Year: 2018
    Citations: 79
    Source: IEEE Transactions on Transportation Electrification, Vol. 5(1), pp. 252–261

  • Title: Modeling and analysis of high-frequency alternating-current heating for lithium-ion batteries under low-temperature operations
    Authors: Y. Shang, C. Zhu, G. Lu, Q. Zhang, N. Cui, C. Zhang
    Year: 2020
    Citations: 76
    Source: Journal of Power Sources, Vol. 450, Article 227435

  • Title: Robust current control-based generalized predictive control with sliding mode disturbance compensation for PMSM drives
    Authors: X. Liu, C. Zhang, K. Li, Q. Zhang
    Year: 2017
    Citations: 72
    Source: ISA Transactions, Vol. 71, pp. 542–552

  • Title: Fractional calculus based modeling of open circuit voltage of lithium-ion batteries for electric vehicles
    Authors: Q. Zhang, N. Cui, Y. Li, B. Duan, C. Zhang
    Year: 2020
    Citations: 62
    Source: Journal of Energy Storage, Vol. 27, Article 100945

  • Title: An adaptive battery capacity estimation method suitable for random charging voltage range in electric vehicles
    Authors: C. Zhang, Y. Kang, B. Duan, Z. Zhou, Q. Zhang, Y. Shang, A. Chen
    Year: 2021
    Citations: 55
    Source: IEEE Transactions on Industrial Electronics, Vol. 69(9), pp. 9121–9132

  • Title: Fractional-order modeling of lithium-ion batteries using additive noise assisted modeling and correlative information criterion
    Authors: M. Yu, Y. Li, I. Podlubny, F. Gong, Y. Sun, Q. Zhang, Y. Shang, B. Duan
    Year: 2020
    Citations: 52
    Source: Journal of Advanced Research, Vol. 25, pp. 49–56

  • Title: Optimal planning of electric vehicle charging stations considering user satisfaction and charging convenience
    Authors: D. Xu, W. Pei, Q. Zhang
    Year: 2022
    Citations: 43
    Source: Energies, Vol. 15(14), Article 5027

  • Title: A neural network fuzzy energy management strategy for hybrid electric vehicles based on driving cycle recognition
    Authors: Q. Zhang, X. Fu
    Year: 2020
    Citations: 42
    Source: Applied Sciences, Vol. 10(2), Article 696

  • Title: Parameter matching optimization of a powertrain system of hybrid electric vehicles based on multi-objective optimization
    Authors: X. Fu, Q. Zhang, J. Tang, C. Wang
    Year: 2019
    Citations: 32
    Source: Electronics, Vol. 8(8), Article 875

  • Title: Variable fractional order—A comprehensive evaluation indicator of lithium-ion batteries
    Authors: Y. Sun, Y. Li, M. Yu, Z. Zhou, Q. Zhang, B. Duan, Y. Shang, C. Zhang
    Year: 2020
    Citations: 31
    Source: Journal of Power Sources, Vol. 448, Article 227411

  • Title: Practical State of Health Estimation for LiFePO4 Batteries Based on Gaussian Mixture Regression and Incremental Capacity Analysis
    Authors: Z. Zhou, B. Duan, Y. Kang, Y. Shang, Q. Zhang, C. Zhang
    Year: 2022
    Citations: 30
    Source: IEEE Transactions on Industrial Electronics, Vol. 70(3), pp. 2576–2585

🏁 Conclusion

In conclusion, Dr. Qi Zhang is a distinguished scholar and researcher in the field of electric mobility and battery management 🌟. His expertise spans critical areas of lithium-ion battery systems, energy efficiency, and sustainable vehicle technology 🚗⚡. With a robust academic background, impactful editorial and professional roles, and a well-rounded skillset, he demonstrates all the qualities of a global research leader. His work not only advances scientific understanding but also contributes to the development of clean and intelligent transport solutions 🌍🛠️. Through consistent contributions to international journals, conferences, and collaborative networks, Dr. Zhang remains a key figure driving innovation in energy systems. He is exceptionally well-positioned for recognition such as the Best Researcher Award for his dedication, vision, and impact 🏅.

Subhan Ullah | Applied Mathematics | Best Researcher Award

Dr. Subhan Ullah | Applied Mathematics | Best Researcher Award

Teacher at University of Malakand, Pakistan

Dr. Subhan Ullah is a dedicated Pakistani researcher in applied mathematics, specializing in fluid mechanics 🌊, nanofluids 🔬, and epidemic modeling 🦠. With a Ph.D. from the University of Malakand, his research on Jeffery-Hamel flows and thermodynamic analyses in convergent/divergent channels demonstrates a commitment to solving real-world engineering challenges 🔧. Dr. Ullah’s collaborative publications in reputable journals reflect his strong team-oriented approach 🤝. As a lecturer and mentor, he inspires students at various educational levels 📚. He is passionate about research and education, aiming to contribute both academically and practically. To elevate his candidacy for top-tier awards 🏆, Dr. Ullah can further strengthen his international visibility, leadership in research, and innovation, ensuring a lasting impact in the global mathematics community 🌍.

Professional Profile 

Education 🎓

Dr. Subhan Ullah’s academic journey is deeply rooted in mathematics, marked by his Ph.D. from the University of Malakand (2020–2023) with a dissertation on heat transfer in Jeffery-Hamel flows 🌊. He earned an M.S. in Mathematics (2012–2014) from Bacha Khan University, exploring the dynamics of epidemic diseases 🦠, and an M.Sc. (2009–2011) from the University of Malakand. His educational foundation was laid through a B.Sc. (2005–2007) and earlier schooling at Government Centennial Model High School Timergara. This solid academic progression showcases his commitment to mathematical sciences 📐, equipping him with advanced theoretical and analytical skills essential for tackling complex fluid dynamics, mathematical biology, and other applied mathematics challenges.

Professional Experience 💼

Dr. Subhan Ullah is an accomplished academician with extensive teaching and research experience. He currently serves as a full-time researcher at the University of Malakand, focusing on applied mathematics and interdisciplinary projects 🤝. His earlier roles as a Lecturer at Bukhara College of Science & Technology and The Educator School & College Timergara highlight his dedication to educating undergraduate and postgraduate students 📚. Additionally, he has contributed significantly as a government school teacher, nurturing young minds and fostering a positive learning environment. Throughout his career, Dr. Ullah has consistently designed innovative curricula, organized seminars, and mentored students, reflecting his passion for advancing mathematics education and research excellence in Pakistan and beyond 🇵🇰.

Research Interest 🔍

Dr. Subhan Ullah’s research interests span fluid mechanics 🌊, with a focus on nanofluids 🔬 and fluid flows in convergent/divergent channels, where he explores complex heat transfer and thermodynamic phenomena. His passion extends to mathematical biology, particularly population dynamics, epidemic dynamics, and infectious disease modeling 🦠, reflecting a multidisciplinary approach to real-world problems. His enthusiasm for applied mathematics drives him to investigate diverse research challenges, recognizing its versatile role in addressing engineering, environmental, and biological systems 🌍. This dynamic research portfolio positions Dr. Ullah at the forefront of mathematical modeling, contributing valuable insights and practical solutions to contemporary scientific and industrial challenges 🚀.

Awards and Honors 🏅

Dr. Subhan Ullah has demonstrated notable achievements in research and academia, earning recognition through impactful publications and conference presentations. His research contributions to high-impact journals—such as Physics Letters A, Chaos, Solitons & Fractals, and the International Journal of Energy Research—underscore his commitment to excellence 📈. He has actively participated in academic conferences, including the International Conference “Mathematical Sciences” at the University of Malakand, sharing his innovative research with the global scientific community 🌐. These accomplishments reflect his dedication to advancing mathematical sciences and position him as a deserving candidate for prestigious research awards that celebrate innovation, impact, and leadership in applied mathematics.

Research Skills 🧪

Dr. Subhan Ullah possesses a robust research skillset encompassing mathematical modeling, computational simulations, and theoretical analysis of fluid dynamics and nanofluid flows 🔬. His proficiency in tools like MATLAB, Mathematica, LaTeX, and LYX empowers him to tackle complex differential equations and thermodynamic problems efficiently 💻. He is adept at interdisciplinary collaboration, contributing to projects that intersect engineering, physics, and biological systems 🤝. His skills extend to mentoring undergraduate and graduate researchers, guiding them in research design, data analysis, and academic writing ✍️. These capabilities collectively enable Dr. Ullah to produce high-quality research that bridges theory and practical application, reinforcing his status as a leading researcher in applied mathematics.

Publications Top Notes

Title:
“Heat transfer augmentation of Jeffery–Hamel hybrid nanofluid in a stretching convergent/divergent channel through porous medium.”

Authors:
S. Ullah, Subhan; H.A.S. Ghazwani, Hassan Ali S.; D.N. Khan, Dolat N.; Z.A. Khan, Zareen Abdulhameed.

Year:
2025.

Citation:
S. Ullah, Subhan, H.A.S. Ghazwani, Hassan Ali S., D.N. Khan, Dolat N., and Z.A. Khan, Zareen Abdulhameed (2025). “Heat transfer augmentation of Jeffery–Hamel hybrid nanofluid in a stretching convergent/divergent channel through porous medium.” AIMS Mathematics.

Source:
AIMS Mathematics (2025). Link currently unavailable.

Conclusion 📌

Dr. Subhan Ullah stands out as a highly motivated researcher with a strong academic foundation, extensive teaching experience, and a dynamic research portfolio 📚. His contributions to fluid mechanics, nanofluids, and epidemic modeling underscore his commitment to tackling real-world challenges through applied mathematics 🌍. While his achievements in research and publication are commendable, further strengthening his international collaborations, leading research projects, and securing competitive funding would enhance his candidacy for prestigious awards 🏆. Dr. Ullah’s passion for education, interdisciplinary research, and mentorship ensures that he will continue making impactful contributions to the mathematical sciences community, both in Pakistan and globally, fostering innovation and academic excellence 🚀.

Dongying Ju | Interdisciplinary Mathematics | Best Innovation Award

Prof. Dongying Ju | Interdisciplinary Mathematics | Best Innovation Award

CEO at Tokyo Green Power Electric Research Institute Co. Ltd, Japan

Dr. Dongying Ju, a distinguished researcher and innovator, holds multiple prestigious roles, including President of the Japan-China Center for Scientific & Technological & Cultural Exchange and Honorary Professor at Saitama Institute of Technology. With a Ph.D. from Kyoto University, his expertise spans solidification theory, advanced materials, and hydrogen energy technologies. He has published over 445 papers and holds 25 patents. Notably, his work on intelligent heat treatment systems and biodegradable materials is globally impactful. Recognized with Geneva Invention Award (2024) and Excellence Award (CAST 2023), Dr. Ju is an influential academic leader 🌍📚. His contributions to materials science and sustainable innovations make him a key figure in advancing modern engineering 🚗💡.

Professional Profile 

Scopus Profile
ORCID Profile

🎓 Education

Dr. Dongying Ju 📘🇨🇳🇯🇵 has a stellar academic foundation grounded in top global institutions. He earned his B.S. from the Hebei Institute of Mechanical and Electrical Engineering (1979) 🏫, pursued graduate studies at Tsinghua University (1985) 🧠, and advanced to complete both his M.S. (1989) and Ph.D. in Engineering (1992) at the prestigious Kyoto University 🎓🇯🇵. This tri-national academic journey shaped his global outlook and technical versatility, equipping him to seamlessly blend Chinese precision, Japanese innovation, and international vision. His academic roots serve as the launchpad for his future-shaping research in material science, advanced manufacturing, and green technologies 🌱🧪.

🏢 Professional Experience

Dr. Ju’s professional journey is a powerhouse of innovation, leadership, and global collaboration 🌍💼. He’s the President of the Japan-China Center for Scientific & Technological Exchange 🌐, Representative Director of Tokyo Green-Motion Electric Technical Research Institute ⚡, and a Foreign Member of The Engineering Academy of Japan 🏅. Formerly a Professor, Vice President, and Director of Research at Saitama Institute of Technology 🧑‍🏫, he has also held executive positions at top firms like Ansteel Group and TOEI ES Co. Ltd. His career unites academia, industry, and policy into a single, influential force of technological advancement 🚀🔧.

🔬 Research Interests

Dr. Ju’s research is a dazzling spectrum of cutting-edge science 🔭💡. From solidification theory ❄️ and multi-physics simulation 💻 to hydrogen energy materials ⚗️🔋 and nanocoatings 🧴, his innovations cross disciplinary borders. He pioneers intelligent heat treatment systems, medical-grade magnesium alloys 🧬, eco-friendly wastewater solutions ♻️, and fuel cell components for a sustainable future 🚗⚙️. His work in visualizing boiling heat transfer and creep behavior in nuclear materials 💥 supports safety and efficiency in high-risk fields. Every project he leads is a blueprint for next-gen industrial systems, human health technologies, and planetary sustainability 🌎💠.

🏆 Awards & Honors

Dr. Ju’s legacy is stamped with distinction 🥇📜. He received the 2024 Geneva International Invention Award 🏅, the 2023 Excellence Award from CAST 🏆, and accolades from IMS for both innovation and publication 🧾✨. He’s published over 445 academic papers 📚 (231 SCI-indexed), authored 12 influential books 📖, and secured 25 patents 🧠🔒—including one international patent. As a respected editor, reviewer, and board member for top journals, he shapes scientific narratives globally 🌐. Recognized across borders for his scientific foresight, Dr. Ju epitomizes the trailblazing spirit worthy of high-level recognition 🥂🚀.

Conclusion

Dr. Dongying Ju is a visionary innovator whose work transforms science into real-world impact 🌟🔧. From groundbreaking research to global collaboration, his fingerprints are on future-forward technologies that shape energy, healthcare, environment, and industry. With unwavering dedication and an unmatched record in engineering breakthroughs, his legacy bridges continents and disciplines 🌉🌍. Whether pioneering hydrogen fuel solutions or reinventing heat treatment with AI, Dr. Ju is not just advancing technology—he’s crafting a smarter, greener world 💡🌱. For these reasons, he is an ideal recipient of the Best Innovation Award 🏅🔥—a living symbol of excellence, ingenuity, and international impact.

Publications Top Notes

🔋 Feasible and Applicable Route to Fabricate the K₀.₃Mn₀.₇CoₓFe₀.₃₋ₓO₂ Potassium Positive Material
Authors: S. Ren, Z. Zhang, J. Li, … D. Ju, W. Zhou
Year: 2025
Source: Electrochimica Acta


⚡ Feasible Constructions of Bi@CNT Materials with Extremely High Rate and Na⁺ Storage Performance
Authors: J. Li, X. Miao, B. Han, … L. Tao, W. Zhou
Year: 2025
Source: Journal of Materials Chemistry A


🧠 Multi-objective Process Optimization of Gear Carburization and Quenching Based on ELM-MOPSO Neural Network
Authors: J. Wang, T. Song, T. Wen, … D. Ju, X. Zhang
Year: 2025
Source: Materials Today Communications


🔬 Study on Microstructure and Electrochemical Properties of Mg₁.₆Ni₁₋ₓTi₀.₄Mnₓ (x = 0~0.3) Alloy
Authors: J. Wang, Y. Liang, F. Wang, … X. Zhang, J. Ma
Year: 2024
Source: Coatings (Open Access)


🤖 Development of an Intelligent Design and Simulation Aid System for Heat Treatment Processes Based on LLM
Authors: Y. Sun, X. Li, C. Liu, … T. Song, D. Ju
Year: 2024
Citations: 1
Source: Materials and Design (Open Access)


🧪 Sulphonated Coal Tar Pitch as a Carbon Source to Develop the Storage Capacity of Fe₂O₃@C Materials
Authors: J. Li, X. Miao, B. Han, … H. Yu, W. Zhou
Year: 2024
Citations: 1
Source: Catalysis Today


🛠️ Numerical Simulation of Low Pressure Carburizing Process for 20CrMnTi Steel
Authors: X. Deng, W. Song, Y. Fan, … Y. Xu, D. Ju
Year: 2024
Source: Jinshu Rechuli / Heat Treatment of Metals


🌡️ Multi-field Coupling Simulation Analysis of 20MnCrS5 Vacuum Low Pressure Carburizing and Gas Quenching
Authors: Z. Zhang, X. Deng, Y. Fan, … Y. Xu, D. Ju
Year: 2024
Source: Surface Technology


🔋 An Asymmetric Electrode Matching Reversible Kinetics of Oxygen Reaction for a Rechargeable Zn-air Battery
Authors: S. Li, H. Zhang, L. Wu, … D. Ju, B. An
Year: 2024
Citations: 5
Source: Chemical Engineering Journal


🧲 The Evolution of Microstructure and Electromagnetic Interference Shielding Effectiveness of Mg-2Mn-1Ce Alloy Prepared by Accumulative Roll Bonding Process
Authors: W. Zhang, Z. Su, X. Hu, D. Ju, H. Zhao
Year: 2024
Source: Journal of Materials Engineering and Performance

Abbas Khlaif | Applied Mathematics | Best Researcher Award

Dr. Abbas Khlaif | Applied Mathematics | Best Researcher Award

Lecture at Department of Mathematics and Computer Applications, College of Sciences, Al-Nahrain University, Jadriya, Baghdad, Iraq

Dr. Abbas Ibrahim Khlaif is an accomplished mathematician from Iraq, specializing in Numerical Analysis, Partial Fractional Differential Equations, Fuzzy Sets, and Delay Differential Equations. He holds a Ph.D. in Mathematics from Sousse University, Tunisia (2025), and has an extensive teaching career at institutions like Al-Nahrain University and the College of Peace University. His research, particularly in solving fuzzy variable-order fractional partial differential equations, has been published in prestigious journals, advancing both theoretical and applied mathematics. 🧮📚 Dr. Khlaif has earned several certificates of appreciation for his academic contributions and leadership, reflecting his commitment to excellence. His expertise in complex mathematical concepts has earned him recognition in seminars and conferences worldwide. 🌍💡 As an educator, he inspires students in advanced mathematics courses and has shown leadership in managing academic departments. With his innovative approach and dedication, Dr. Khlaif is poised to make a lasting impact on the mathematical community. 🎓

Professional Profile

Google Scholar
ORCID Profile

🎓 Education: A Journey of Mathematical Mastery

Dr. Abbas Ibrahim Khlaif‘s academic path is nothing short of inspiring. Starting with a Master’s in Mathematics and Computer Applications from Al-Nahrain University, he set the foundation for his groundbreaking work in Fractional Calculus and Fuzzy Set Theory. His curiosity and dedication led him to pursue a Ph.D. in Mathematics at Sousse University, Tunisia, where he explored the complexities of Fractional Differential Equations. Throughout his studies, Dr. Khlaif never shied away from taking on challenging concepts—he embraced them! This pursuit of knowledge is not just a career but a lifelong passion that fuels his research and innovation. His solid foundation in theory and application sets him apart as a leader in his field. 🎓📚

🏫 Professional Experience: Inspiring Minds, Leading Change

Dr. Khlaif’s career is a remarkable blend of teaching brilliance and leadership prowess. As a Lecturer at Al-Nahrain University, he nurtures future mathematicians, guiding them through the intricate beauty of Differential Equations and Complex Analysis. What sets Dr. Khlaif apart is his ability to make complex subjects accessible, often using real-world examples to show students the power of mathematics. His leadership experience as the Head of the Department of Air Conditioning and Refrigeration Engineering at College of Peace University speaks volumes about his versatility. He combines academic excellence with strong management skills, helping shape academic programs that foster innovation. 🌟💡

🔬 Research Interests: Solving the World’s Complex Problems

Dr. Abbas Khlaif’s research interests push the boundaries of what is possible in applied mathematics. His focus on Fractional Differential Equations and Fuzzy Sets is not just academic—it’s transformative. Using advanced methods like the Homotopy Analysis Method, Dr. Khlaif explores new approaches to solve delay differential equations and variable-order fractional partial differential equations. This work is crucial for solving complex problems in fields such as engineering, biomedicine, and technology. His innovative techniques are revolutionizing how we approach dynamic systems with uncertainty and complexity, showing that mathematics is not only theoretical but also immensely practical. 🔬🌍

🏆 Awards and Honors: A Testimony to Excellence

Dr. Khlaif’s impact on the academic world hasn’t gone unnoticed. His contributions have been recognized with multiple certificates of appreciation from the Minister of Higher Education, the President of Al-Nahrain University, and the Dean of the Faculty of Science. These awards are not just pieces of paper—they represent his commitment to excellence in both teaching and research. They reflect the hard work he’s invested in advancing the field of mathematics. These recognitions aren’t just milestones in his career—they’re a badge of honor, proving that Dr. Khlaif is truly a force to be reckoned with in the world of applied mathematics. 🏆🎖

🌍 Conclusion: A Visionary on the Rise

The future of mathematics is brighter thanks to researchers like Dr. Abbas Ibrahim Khlaif. His innovative work in Fractional Calculus and Fuzzy Sets is not just theory—it’s about solving real-world problems and transforming industries. As a lecturer and leader, Dr. Khlaif continues to inspire and guide the next generation of thinkers. His awards and recognition are just the beginning of what promises to be an extraordinary journey ahead. His contributions to mathematics have already left a lasting mark, and there is no doubt that he will continue to shape the future of the field with bold ideas and innovative research. 🌍🔭

Publications Top Notes

Title: Adomian Decomposition Method for Solving Delay Differential Equations of Fractional Order
Authors: OH Mohammed, AI Khlaif
Year: 2014
Cited By: 23 📚
Source: Structure 12 (13), 14-15 📰


Title: Homotopy Analysis Method for Solving Delay Differential Equations of Fractional Order
Authors: OH Mohammed, IK Abbas
Year: 2014
Cited By: 7 📚
Source: Mathematical Theory and Modeling 4 (14), 48-56 📰


Title: Conformable Variational Iteration Method for Solving Fuzzy Variable-Order Fractional Partial Differential Equations with Proportional Delay
Authors: AI Khlaif, OH Mohammed, M Feki
Year: 2025
Source: Partial Differential Equations in Applied Mathematics 13, 101064 📰


Title: A Modified Method for Solving Delay Fuzzy Variable-Order Fractional Partial Differential Equations
Authors: AI Khlaif, OH Mohammed, M Feki
Year: 2024
Source: Communications in Mathematical Biology and Neuroscience 2024, Article ID 114 📰


Title: Homotopy Analysis Method for Solving Fuzzy Variable–Order Fractional Partial Differential Equations with Proportional Delay
Authors: AI Khlaif, OH Mohammed, M Feki
Year: 2024
Source: Journal of Applied Science and Engineering 28 (7), 1601-1611 📰