Rongliang Liu | Social Sciences | Young Innovator Award

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Mr. Rongliang Liu | Social Sciences | Young Innovator Award

Shaanxi Normal University | China

Dr. Liu Rongliang is an interdisciplinary researcher whose work bridges physical geography, geomorphology, and art aesthetics, with a strong focus on the emerging theory of “Wind–Sand Geomorphic Landscape and Its Aesthetic Theory.” With an academic foundation rooted in oil painting at Chongqing University, where he completed both his bachelor’s and master’s degrees, he later expanded his scholarly pathway through doctoral training that synergized artistic insight with geographical science. His research explores aeolian landforms, desert landscapes, and human–environment interactions through both scientific analysis and aesthetic interpretation. Dr. Liu has published influential work in internationally indexed journals, including Landscape Research, with growing citation counts-0, an increasing h-index-0, and document-2. He has contributed to book chapters, creative research outputs, and innovative studies merging visual art with Earth surface processes. His experience includes research project participation, academic collaborations, and contributions to aesthetic geography. His research interests span aeolian geomorphology, landscape aesthetics, environmental art theory, and interdisciplinary design. Recognized for advancing cross-domain knowledge, he continues to develop theoretical frameworks and visual methodologies that inspire new understandings of desert systems. His career reflects a commitment to innovation, scholarly excellence, and expanding the dialogue between geography and art.

Profile : Scopus

Featured Publications

Liu, R., Dong, Z., Shi, J., & Wang, J. (2025). Aesthetic characteristics of aeolian landforms. Landscape Research. Advance online publication.

Jalil Jamali | Mechanical Engineering | Best Researcher Award

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Dr. Jalil Jamali | Mechanical Engineering | Best Researcher Award

Islamic Azad University | Iran

Dr. Jalil Jamali is an Assistant Professor of Mechanical Engineering at Islamic Azad University. His teaching spans undergraduate (Mechanics of Materials, Statics, Dynamics, Vibrations), master’s (Theory of Plates & Shells, Elasticity, Elastodynamics, Advanced Mathematics I, Vehicle Dynamics) and doctoral-level (Advanced Mathematics II) courses. His research interests centre on Vibrations, Dynamics, Ultrasonic Non-Destructive Testing (NDT), and Functionally Graded Materials (FGM). Over the years, he has authored multiple papers in these areas. Through his publications, he contributes to advancing methods in dynamic analysis and NDT for graded materials. He also guides students and cultivates a rigorous learning environment through both theoretical and applied courses. His experience as educator and researcher enables bridging fundamentals (mechanics and mathematics) with advanced topics (elasticity, dynamics, FGM, NDT), positioning him as a versatile scholar. His work continues to attract citations, reflecting growing recognition in his field.

Profile : Google Scholar

Featured Publications

Shoghl, S. N., Jamali, J., & Moraveji, M. K. (2016). Electrical conductivity, viscosity, and density of different nanofluids: An experimental study. Experimental Thermal and Fluid Science, 74, 339–346.

Behzad, M., Alvandi, M., Mba, D., & Jamali, J. (2013). A finite element-based algorithm for rubbing induced vibration prediction in rotors. Journal of Sound and Vibration, 332(21), 5523–5542.

Mousavi, S. F., Hashemabadi, S. H., & Jamali, J. (2020). Calculation of geometric flow profile correction factor for ultrasonic flow meter using semi-3D simulation technique. Ultrasonics, 106, 106165.

Rajabi, M., Ahmadian, M. T., & Jamali, J. (2015). Acoustic scattering from submerged laminated composite cylindrical shells. Composite Structures, 128, 395–405.

Goharkhah, M., Ashjaee, M., & Jamali, J. (2016). Experimental investigation on heat transfer and hydrodynamic behavior of magnetite nanofluid flow in a channel with recognition of the best models for transport properties. Experimental Thermal and Fluid Science, 68, 582–592.

Mozhgan Sepahvandian | Chemistry and Materials Science | Research Excellence Award

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Dr. Mozhgan Sepahvandian | Chemistry and Materials Science | Research Excellence Award

Lorestan University | Iran

Dr. Mozhgan Sepahvandian is an accomplished inorganic chemist whose academic journey reflects a strong commitment to scientific excellence, innovation, and interdisciplinary research. With a PhD in Inorganic Chemistry, she has built expertise in advanced material synthesis, coordination compounds, and catalytic systems while contributing to both theoretical and experimental chemistry. Has published 3 peer-reviewed journal papers indexed in major scientific databases, accumulating citations- 0, documents- 3, and an h-index-0 that reflect her growing impact in the field. With 10 completed or ongoing research projects, her work spans functional materials, green chemistry, and nanostructured inorganic systems. Her research interests include inorganic synthesis, materials chemistry, photocatalysis, and the development of sustainable chemical processes. In addition to academic research, she actively engages in institutional collaborations and contributes to the scientific community through knowledge sharing and collaborative initiatives. She has participated in various academic activities, technical discussions, and research-driven initiatives that strengthen the bridge between chemistry and applied sciences. Dr. Sepahvandian’s dedication to innovation, high-quality research, and continuous professional development underscores her role as an emerging researcher in inorganic chemistry. Looking ahead, she aims to expand her contributions to advanced materials and environmentally friendly chemical applications, supporting scientific progress and societal benefit.

Profiles : Scopus | Orcid

Featured Publications

Sepahvandian, M., & Zabardasti, A. (2025). Computational study of dacarbazine–amino acid interactions. Journal of Biomolecular Structure and Dynamics.

Sepahvandian, M., & Zabardasti, A. (2025). Exploring limonene adsorption on magnesium and selenium doped AlP nanosheets: A DFT study. Computational Condensed Matter.

Sepahvandian, M., Abd Al-Aama, Z. M., Al-Masoudi, H. Q., & Zabardasti, A. (2025). Theoretical investigation of optical properties of adducts of Aun and Cun (n = 1–3) with free base porphyrins. Bulletin of the Chemical Society of Ethiopia.

Rolf Jakoby | Electrical Engineering | Outstanding Scientist Award

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Prof. Dr. Rolf Jakoby | Electrical Engineering | Outstanding Scientist Award

Technical University of Darmstadt | Germany

Prof. Dr.-Ing. Rolf Jakoby is an accomplished researcher in microwave engineering, with an outstanding academic impact reflected by an h-index of 43, 570 documents, and 8,158 citations. He holds distinguished academic qualifications, including a Dipl.-Ing. and Dr.-Ing. in electrical engineering, and has served in leading academic roles such as Full Professor and Head of the Microwave Engineering and Technology Group at TU Darmstadt. His extensive professional experience spans university teaching, advanced research leadership, and collaborative industrial projects with major institutions across Europe and beyond. His research interests include tunable microwave components, adaptive and reconfigurable RF systems, chipless RFID, microwave sensors, and biomedical microwave technologies. He has supervised more than fifty doctoral dissertations and contributed to over seventy major research projects funded by agencies such as DFG, EU Horizon, DLR, and major industrial partners. Widely recognized for his contributions, he has earned numerous awards, including best paper prizes, dissertation awards, and international honors such as the Leopold B. Felsen Award. His work continues to influence advancements in reconfigurable microwave systems, high-frequency materials, and next-generation communication technologies. Overall, his distinguished career demonstrates exemplary leadership, innovation, and long-standing contributions to global microwave engineering research.

Profile : Scopus

Featured Publications

A 100 GHz Switched Beam Patch Antenna Array With 4 × 4 Butler Matrix Based on Metallic-Nanowire-Filled Membrane. (2025). Microwave and Optical Technology Letters.

Ceramic-Based High-Q Retroreflectors for Sub-mm Localization in High-Temperature Environments. (2025). Conference paper.

Liquid Crystal Goes RF: From Gigahertz to Terahertz. (2025). IEEE Microwave Magazine.

Multigap-Waveguide Liquid Crystal Phase Shifter at Ka-Band. (2025). IEEE Microwave and Wireless Technology Letters.

A wireless W-band 3D-printed temperature sensor based on a three-dimensional photonic crystal operating beyond 1000 °C. (2024). Communications Engineering.

Leo Miguel González | Mechanical Engineering | Excellence in Research Award

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Prof. Dr. Leo Miguel González | Mechanical Engineering | Excellence in Research Award

Universidad Politécnica de Madrid | Spain

Leo Miguel González is a distinguished Professor Titular at the Universidad Politécnica de Madrid, specializing in numerical methods in engineering, fluid mechanics, the Navier–Stokes equations, and fluid–structure interaction. With a strong academic foundation that includes degrees in Industrial Engineering, Physics, and a PhD in Engineering from the UPM, he has built a solid career spanning more than two decades in research and university teaching. His experience includes academic roles at Universidad Pontificia Comillas and later progressive appointments at UPM, where he achieved accreditation as Catedrático by ANECA and has obtained three research sexenios. González has contributed to major European and national R&D projects, including SLOWD , FOWTDAMP (Plan Nacional), and IMAGE, collaborating with leading institutions such as Airbus, CNR-INSEAN, and the University of Bristol. His research outputs include patents such as Visitando nuestra ciencia and FEMICAI, reflecting his commitment to innovation. His publication record, citation impact, and h-index are documented in international bibliographic databases such as Scopus and Web of Science. His work continues to advance aerospace propulsion, fluid mechanics, and computational modeling, reinforcing his reputation as a key contributor to European engineering research.

Profile : Google Scholar

Featured Publications

Macia, F., Antuono, M., González, L. M., & Colagrossi, A. (2011). Theoretical analysis of the no-slip boundary condition enforcement in SPH methods. Progress of Theoretical Physics, 125(6), 1091–1121.

Huera-Huarte, F. J., Bangash, Z. A., & González, L. M. (2014). Towing tank experiments on the vortex-induced vibrations of low mass ratio long flexible cylinders. Journal of Fluids and Structures, 48, 81–92.

Azcona, J., Munduate, X., González, L., & Nygaard, T. A. (2017). Experimental validation of a dynamic mooring lines code with tension and motion measurements of a submerged chain. Ocean Engineering, 129, 415–427.

Souto-Iglesias, A., Macià, F., González, L. M., & Cercos-Pita, J. L. (2013). On the consistency of MPS. Computer Physics Communications, 184(3), 732–745.

Huera-Huarte, F. J., Bangash, Z. A., & González, L. M. (2016). Multi-mode vortex and wake-induced vibrations of a flexible cylinder in tandem arrangement. Journal of Fluids and Structures, 66, 571–588.

Sung Min Cha | Engineering and Technology | Research Excellence Award

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Dr. Sung Min Cha | Engineering and Technology | Research Excellence Award

Pusan National University | South Korea

Dr. Sung Min Cha is a distinguished environmental engineer and Senior Researcher at the Green Land & Water Management Research Institute, Pusan National University, known for impactful contributions to climate-resilient water management and nature-based environmental solutions. With a strong scholarly footprint reflected in an h-index of 13, 31documents, and 860citations his research integrates climate change adaptation, urban hydrology, nonpoint source (NPS) pollution control, Low Impact Development (LID), and digital-twin–based environmental analytics. He earned his Ph.D. and M.S. in Environmental Engineering from the Gwangju Institute of Science and Technology (GIST) and a B.S. in Resources Engineering from Chosun University. His professional journey includes significant roles as Principal Researcher at the Jeonnam Environmental Industries Promotion Institute and Postdoctoral Researcher at both the University of Hawai‘i at Mānoa and GIST. Dr. Cha has led and contributed to major national and international research projects on urban cooling, climate disaster mitigation, and advanced NPS reduction technologies. His achievements have been recognized through multiple honors, including the Chairman’s Award, Minister’s Award, Merit Award, and Best Presentation Award. Dr. Cha continues to advance innovative environmental strategies that support climate-adaptive, sustainable, and data-driven water resource management.

Profiles : Scopus | Orcid

Featured Publications

Lee, S. W., Lee, J., & Cha, S. M. (2020). Assessment of factors affecting the removal efficiency of suspended solids and particulate matters for pretreatment units in a stormwater management facility. Water, 12(6), 1529.

Lee, S. W., Kim, J. H., & Cha, S. M. (2020). Analysis of the relation between pollutant loading and water depth flowrate changes in a constructed wetland for agricultural nonpoint source pollution management. Ecological Engineering, 150, 105841.

Cha, S. M., Lee, S. W., Cho, K. H., Lee, S. H., & Kim, J. H. (2016). Determination of best management timing of nonpoint source pollutants using particle bins and dimensionless time in a single stormwater runoff event. Ecological Engineering, 89, 1–10.

Din, A. A., Park, Y., Lee, S. W., Cha, S. M., Cho, K. H., & Kim, J. H. (2016). Finding sources and sinks of fluorescent dissolved organic matter in a riverine system using parallel factor model. Desalination and Water Treatment, 57(32), 14990–15000.

Park, Y., Cho, K. H., Park, J., Cha, S. M., & Kim, J. H. (2015). Development of early-warning protocol for predicting chlorophyll-a concentration using machine learning models in freshwater and estuarine reservoirs, Korea. Science of the Total Environment, 502, 1–8.

Jeongeui Yun | Energy and Sustainability | Best Scholar Award

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Prof. Jeongeui Yun | Energy and Sustainability | Best Scholar Award

Kangwon National University | South Korea

Professor Jeong-Eui Yun is a distinguished mechanical engineering scholar recognized for his impactful contributions to automotive engineering, turbomachinery design, thermal-fluid systems, and centrifugal pump optimization. With an impressive research record reflected by an h-index of 4, more than 23 citations, and over 171 published documents, he has established himself as a leading expert in advanced propulsion and energy-efficient machinery. He earned his B.E. in Mechanical Engineering from Busan National University, his M.Sc. in Mechanical Design from Seoul National University, and his Ph.D. in Mechanical Engineering from KAIST. His professional journey includes serving as Professor at Kangwon National University, Vice President of the university, Dean of Academic Affairs, and Visiting Professor at the University of Wisconsin–Madison, along with notable industrial experience as Chief Research Engineer at Daewoo Motor Co. His research interests span variable-geometry turbochargers, centrifugal pump optimization, engine thermal management, and computational fluid dynamics (CFD). His innovative work has earned multiple prestigious awards, including the KSAE Technical Prize, KAIDA Academic Award, and the KNU Education Award. Professor Yun continues to advance engineering innovation through impactful research, academic leadership, and collaborative industry-focused development.

Profile : Scopus

Featured Publications

Yun, J.-E. (2025). Turbine performance of variable geometry turbocharger applied to small gasoline engine considering heat transfer effect. Energies.

Yun, J.-E. (2024). Optimal design of a liquid hydrogen centrifugal pump impeller. Energies.

Yun, J.-E. (2023). Influence of trailing edge curve on the performance of radial turbine in turbocharger. International Journal of Low-Carbon Technologies.

Yun, J.-E. (2021). Thermal flow analysis of engine room for off-road utility terrain vehicle. Transactions of the Korean Society of Automotive Engineers.

Yun, J.-E. (2021). Optimal design of off-road utility terrain vehicle air filter intake. Energies.

Muneeb Ullah | Chemical Engineering | Excellence in Research Award

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Mr. Muneeb Ullah | Chemical Engineering | Excellence in Research Award

Pusan National University | South Korea

Dr. Muneeb Ullah is a dedicated pharmaceutical researcher and doctoral scholar at Pusan National University, South Korea, specializing in pharmaceutics, pharmaceutical nanotechnology, and advanced drug-delivery systems. With an impressive scientific impact reflected by an h-index of 12, and 512 citations across 38 peer-reviewed publications, books, and chapters, he has significantly contributed to nanomedicine, wound-healing therapeutics, cardiovascular nanotechnology, colorectal cancer therapy, and biofilm-targeting drug-delivery platforms. His academic journey includes a BS-Pharmacy and an MPhil in Pharmaceutical Sciences with specialization in nanotechnology, where he developed polymeric nanoparticles using solvent-evaporation methods. Professionally, he has served as a Research Assistant at Pusan National University and at the National University of Medical Sciences (NUMS), as well as a visiting faculty member in Pakistan. His research focuses on nanoparticle engineering, diabetic wound healing, anti-biofilm strategies, 3D/4D bioprinting, cardiovascular nanotechnology, microbial inflammation, and precision oncology. He has also co-authored high-impact works in journals such as Chemical Engineering Journal, European Polymer Journal, Pharmaceutics, and Current Problems in Cardiology. His achievements include the HEC Indigenous Scholarship, Best Teacher Award, Best Talent Award, and Best Researcher Awards. Dr. Ullah continues to advance nanotechnology-enabled therapeutics to shape next-generation biomedical solutions.

Profile : Scopus

Featured Publications

Ullah, M., Aftab, M., Safdar, M., Naeem, M., & Wahab, A. (2025). Genetic engineering of fungi. In Fungal biotechnology (pp. 36–44). CRC Press.

Osman, A., Song, Y. H., Ullah, M., Kim, Y., Lee, H., Yoo, J. W., Hwang, D. S., & Seo, J. H. (2025). Sugar nanocluster adhesive boosts wound healing in diabetic mice. Carbohydrate Polymer Technologies & Applications, 11, 100933.

Aftab, M., Ikram, S., Ullah, M., Khan, S. U., Wahab, A., & Naeem, M. (2025). Advancement of 3D bioprinting towards 4D bioprinting for sustained drug delivery and tissue engineering from biopolymers. Journal of Manufacturing & Materials Processing, 9(8), 285.

Aftab, M., Ali, H., Ullah, M., Ikram, S., Khan, S. U., Wahab, A., & Naeem, M. (2025). Biomedical applications of carbon dots: Advances in antimicrobial therapy and targeted delivery systems. Biomedical Materials & Devices, 1–22.

Ahmed, Z., Ullah, M., Zeshan, D., Khan, S. U., & Ali, F. (2025). Exploring the tumor microenvironment in solid cancer: From biology to therapy. In Academic Press.

Yanze Long | Mechanical Engineering | Best Researcher Award

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Mr. Yanze Long | Mechanical Engineering | Best Researcher Award

Shenyang Jianzhu university | China

Yanze Long is a highly accomplished engineering researcher recognized for impactful contributions to mechanical engineering, construction equipment innovation, and intelligent structural systems. With an established academic background in construction engineering equipment, he has advanced research across intelligent lifting technologies, automated installation systems, wind-power maintenance platforms, and optimization of prefabricated building components. His scholarly record includes SCI and EI-indexed publications, editorial service for the Journal of the Brazilian Society of Mechanical Sciences and Engineering, and a growing citation profile with an h-index supported by numerous high-impact documents and citations. He has led multiple provincial, ministerial, and national-level R&D projects, delivering transformative engineering solutions adopted by major industry enterprises. His portfolio includes over 30 patents, two authored books, and consultancy projects that improved efficiency, safety, and technological independence across China’s construction and equipment sectors. His research interests span intelligent construction systems, mechanical design, structural health monitoring, automation control, and advanced lifting technologies. His innovations have generated significant industrial benefits, including achievement transformations that boosted enterprise sales by 15.51 billion yuan. His work continues to accelerate industry modernization, strengthen China’s global competitiveness, and shape next-generation engineering solutions.

Profile : Orcid

Featured Publications

Tong, S., Zhao, J., Zhou, P., Zhang, K., Liu, D., & Long, Y. (2025). Automatic obstacle avoidance control system for cable crane with error constraints. Journal of Field Robotics.

Long, Y., Chu, S., Zhang, K., Zhou, P., Shi, H., & Hu, T. (2025). Real-time structural health monitoring based on measured and simulated data. Nondestructive Testing and Evaluation.

Long, Y., Zhang, K., Shi, H., Li, S., & Zhang, X. (2021). Theoretical and experimental analysis of thin-walled curved rectangular box beam under in-plane bending. Scanning, Article 8867142.

Long, Y., Zhang, K., Shi, H., & Li, S. (2020). Theoretical and experimental study on strain distribution of curved beam in-plane force considering pre-bending. Journal of the Brazilian Society of Mechanical Sciences and Engineering.

Li, S., Wei, C., & Long, Y. (2020). Deformation analysis of engineering reinforcement straightening based on Bauschinger effect. International Journal of Steel Structures.

Andrea Ribeiro | Medicine and Health Sciences | Editorial Board Member

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Prof. Dr. Andrea Ribeiro | Medicine and Health Sciences | Editorial Board Member

Isave | Portugal

Andrea Ribeiro is a distinguished Professor of Physiotherapy  spanning research in shoulder biomechanics, sports rehabilitation, cardiorespiratory physiotherapy, and aquatic therapy. Her work includes more than 20 scholarly documents published in high-impact journals, addressing scapular adaptations, shoulder external rotation, and functional assessments in overhead athletes, as well as balance improvement strategies for older adults. Ribeiro’s research focuses on clinical evaluation, injury prevention, and performance optimization in sports populations, integrating practical and theoretical aspects of physiotherapy. She has contributed to understanding scapulohumeral rhythm, glenohumeral adaptations, and the role of green environments in healthy aging. Her experience encompasses extensive teaching, research supervision, and active participation in international health congresses, reflecting a commitment to advancing physiotherapy knowledge and practice. Recognized for her contributions to clinical and sports physiotherapy, Ribeiro has influenced both scientific research and applied therapeutic strategies. Her work continues to drive innovation in athlete assessment, rehabilitation, and functional well-being, providing a strong foundation for evidence-based physiotherapy interventions. She remains dedicated to bridging research with practical applications, fostering healthy aging, and enhancing athlete performance across diverse settings.

Profile : Google Scholar

Featured Publications

Tomás, C. C., Oliveira, E., Sousa, D., Uba-Chupel, M., Furtado, G., Rocha, C., … Ribeiro, A. (2016). Proceedings of the 3rd IPLeiria’s International Health Congress: Leiria, Portugal, 6–7 May 2016. BMC Health Services Research, 16(Suppl 3), 200.

Ribeiro, A., & Pascoal, A. G. (2013). Resting scapular posture in healthy overhead throwing athletes. Manual Therapy, 18(6), 547–550.

Casotti, L., Ribeiro, A., Santos, C., & Ribeiro, P. (1998). Consumo de alimentos e nutrição: dificuldades práticas e teóricas. Cadernos de Debate, 6, 26–39.

Graça, M., Alvarelhão, J., Costa, R., Fernandes, R. J., Ribeiro, A., Daly, D., … (2020). Immediate effects of aquatic therapy on balance in older adults with upper limb dysfunction: An exploratory study. International Journal of Environmental Research and Public Health, 17(24), 9434.

Ribeiro, A., & Pascoal, A. G. (2012). Scapular contribution for the end-range of shoulder axial rotation in overhead athletes. Journal of Sports Science & Medicine, 11(4), 676.