Mohamed Ali | Fracture and Damage Mechanics | Editorial Board Member

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Prof. Mohamed Ali | Fracture and Damage Mechanics | Editorial Board Member

Professor of Engineering Mathematics at Benha Faculty of Engineering | Benha University | Egypt.

Prof. Mohamed Ali is an Assistant Professor of Basic Science at Benha Faculty of Engineering, Benha University, specializing in advanced mathematical modeling, fractional calculus, nonlinear differential systems, numerical simulation, and analytical techniques applied to engineering and physical sciences. His academic journey includes a Bachelor’s degree in Electrical Power Engineering, followed by a Master’s and PhD in Engineering Mathematics and Physics focused on numerical solutions for differential and integral equations using innovative basis functions and comparative analyses of modern series solution frameworks. He has established a strong research presence in fractional ODEs and PDEs, fractional fluid flow problems, mixed convection, porous media flow, heat and mass transport, soliton theory, nanofluid and hybrid nanofluid dynamics, bio-convection, ordinary and partial differential systems, and advanced analytical and numerical methods. His professional expertise extends to computational software such as Mathematica, Maple, MATLAB, and scientific programming environments. Dr. Mohamed Reda has taught a wide range of foundational and advanced courses including Calculus, Differential Equations, Numerical Methods, Linear Algebra, Probability and Statistics, Operation Research, Research Methodology, and Specialized Topics in Analysis and Differential Equations. He has supervised postgraduate theses, delivered invited seminars, chaired academic committees, contributed to major mathematical conferences, and served as a part-time scientific consultant for multiple universities. His publication record spans hybrid orthonormal Bernstein and block-pulse function wavelet schemes for multidimensional nonlinear problems, Darboux transformation solutions for dispersive equations, numerical methods for singular Volterra systems, Lie symmetry analyses of nonlinear physical models, neural network-based computational intelligence for complex dynamical systems, nanofluid heat transport analysis, stochastic approaches for epidemiological and biological models, spectral relaxation frameworks, and innovative machine learning-assisted solvers for high-order nonlinear differential equations. His contributions continue to advance mathematical physics, computational engineering, and intelligent numerical algorithms.

Profile:  Scopus | Orcid 

Featured Publications:

Exploration of stagnation-point flow of Reiner–Rivlin fluid originating from the stretched cylinder for the transmission of the energy and matter. (2025). Scientific Reports.

Investigating the wave profiles to the linear quadratic model in mathematical biology. (2025). Scientific Reports.

Retraction Note: Nature analysis of Cross fluid flow with inclined magnetic dipole (Microsystem Technologies, (2023), 29(5), 697–714). (2025). Microsystem Technologies.

Thermal and entropic behavior of hybrid nanofluids in unsteady squeezing flow through porous media under magnetic influence. (2025). Results in Engineering.

Swarm intelligent computing procedures to solve the novel precautionary measures in the nonlinear HIV system. (2025). Multimedia Tools and Applications.

Frahad Samimi Namin | Contact Mechanics | Editorial Board Member

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Dr. Frahad Samimi Namin | Contact Mechanics | Editorial Board Member

The Academic Staff of the University at University of Zanjan | Iran

Dr. Frahad Samimi Namin is an accomplished mining engineering scholar and Assistant Professor whose academic and professional journey reflects deep expertise in underground mining method selection, mine planning, and advanced decision-making systems; he completed his foundational studies in mining engineering before pursuing advanced postgraduate research that culminated in a doctoral thesis titled “Development of a Decision Theory Based Model for Underground Mining Method Selection,” a work that established his reputation in integrating multicriteria decision-making, fuzzy logic, and mine design principles; he expanded his research exposure through a sabbatical at Istanbul University, where he further refined his scientific approach to mining systems analysis; over the course of his academic career at the University of Zanjan, he taught a wide range of specialized courses including Underground Mining Methods, Advanced Underground Excavation Methods, Principles of Mine Design, Mine Surveying, Mine Ventilation, Tunneling, Shaft Sinking, and Mine Management, contributing significantly to professional training in the mining sector; his scientific interests span mine planning and design, mining method and equipment selection, environmental impact assessment, and hybrid fuzzy-based decision support tools; he has authored and co-authored impactful publications such as “FMMSIC: A Hybrid Fuzzy Based Decision Support System for MMS (In Order to Estimate Interrelationships Between Criteria)” and “Practical Applications from Decision-Making Techniques for Selection of Suitable Mining Method in Iran,” along with several influential ISI journal papers addressing fuzzy decision-making models, environmental impacts of open-pit mining, and optimization strategies in mining operations; his research presented at numerous international conferences highlights innovative applications of fuzzy logic, numerical modeling, slope stability analysis, and operational optimization, positioning him as a recognized contributor to modern mining engineering methodologies and intelligent decision frameworks.

Profile:  Scopus | Orcid 

Featured Publications:

Salimi, M. H., Samimi Namin, F., Nikbin, V., & Ataee-Pour, M. (2025). Enhancing illumination efficiency in underground mines: A decision analysis approach to optimize lamp selection and arrangement. Mining, Metallurgy & Exploration.

Samimi Namin, F., & Rouhani, M. M. (2024). A review: Applications of fuzzy theory in rock engineering. Indian Geotechnical Journal.

Fetri, M., Shahabi, R. S., Namin, F. S., Zeyni, E. E., & Khereshki, M. H. K. (2023). Analyzing the effects of natural ventilation caused by excavating the waste pass on the ventilation network of the Anguran mine. International Journal of Mining and Geo-Engineering.

Jalali, Z., & Namin, F. S. (2023). Development of a new system for improving blastability by using the fuzzy Delphi AHP method. International Journal of Mining and Geo-Engineering.

Rouhani, M. M., & Samimi Namin, F. (2023). Investigate the potential of using fuzzy similarity in decision making under uncertainty for mining projects. Resources Policy.

Samimi Namin, F., Ghadi, A., & Saki, F. (2022). A literature review of multi criteria decision-making (MCDM) towards mining method selection (MMS). Resources Policy.

Amir Kavussi | Plasticity | Editorial Board Member

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Prof. Amir Kavussi | Plasticity | Editorial Board Member

Head of Highway Group at Tarbiat Modares University | Iran

Prof. Amir Kavussi is a distinguished Professor of Civil Engineering whose scholarly work has significantly advanced the fields of pavement engineering, pavement management, pavement materials, asphalt technology, and bitumen science. His research contributions demonstrate a sustained commitment to improving the performance, durability, sustainability, and resilience of transportation infrastructure systems. His expertise spans diverse areas, as reflected in his extensive publication record, which includes influential works such as Fatigue Characterization of Asphalt Mixes Containing Electric Arc Furnace Steel Slag Subjected to Long Term Aging and Laboratory Fatigue Models for Recycled Mixes with Bitumen Emulsion and Cement, both of which established foundational insights into the behavior of recycled and modified asphalt mixes. He has also contributed to moisture and durability studies through impactful publications like Evaluation of the Effects of Anti-Stripping Agents on the Performance of Asphalt Mixtures, Moisture Susceptibility of Warm Mix Asphalt: A Statistical Analysis of Laboratory Testing Results, and Applying Surface Free Energy Method for Evaluation of Moisture Damage in Asphalt Mixtures Containing Date Seed Ash. His work investigating polymer and nanomaterial modifications, including Rheological Characteristics of SBR and NR Polymer Modified Bitumen Emulsions at Average Pavement Temperatures, The Role of Nanomaterials in Reducing Moisture Damage of Asphalt Mixes, and Investigating Fatigue Behavior of Nanoclay and Nano Hydrated Lime Modified Bitumen Using LAS Test, has been widely recognized for its innovation and technical rigor. Professor Kavussi has also made notable contributions to sustainable pavement technologies through publications such as The Use of High Content of Fine Crumb Rubber in Asphalt Mixes Using Dry Process, Characterizing Temperature Performance of Bio-Modified Binders Containing RAP Binder, Effects of Aging Level on Induced Heating-Healing Properties of Asphalt Mixes, and Performance Characterization of Warm-Mix Asphalt Containing High Reclaimed-Asphalt Pavement with Bio-Oil Rejuvenator. With additional influential works including Properties of Bituminous Mixtures Containing Different Fillers, A Model for Resilient Modulus Determination of Recycled Mixes with Bitumen Emulsion and Cement from ITS Testing Results, Evaluation of PFWD as Potential Quality Control Tool of Pavement Layers, and Evaluating Fatigue Behavior of Asphalt Binders and Mixes Containing Date Seed Ash, his research portfolio demonstrates breadth, depth, and lasting impact. Today, Amir Kavussi stands as a highly cited academic leader whose contributions continue to guide both research and practice in modern pavement engineering.

Profile:  Scopus | Google Scholar

Featured Publications:

Kavussi, A., & Qazizadeh, M. J. (2014). Fatigue characterization of asphalt mixes containing electric arc furnace (EAF) steel slag subjected to long term aging. Construction and Building Materials, 72, 158–166.

Kavussi, A., & Modarres, A. (2010). Laboratory fatigue models for recycled mixes with bitumen emulsion and cement. Construction and Building Materials, 24(10), 1920–1927.

Nazirizad, M., Kavussi, A., & Abdi, A. (2015). Evaluation of the effects of anti-stripping agents on the performance of asphalt mixtures. Construction and Building Materials, 84, 348–353.

Khadivar, A., & Kavussi, A. (2013). Rheological characteristics of SBR and NR polymer modified bitumen emulsions at average pavement temperatures. Construction and Building Materials, 47, 1099–1105.

Tahami, S. A., Mirhosseini, A. F., Dessouky, S., Mork, H., & Kavussi, A. (2019). The use of high content of fine crumb rubber in asphalt mixes using dry process. Construction and Building Materials, 222, 643–653.

Jianbo Zhou | Endocrinology | Best Researcher Award

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Prof. Jianbo Zhou | Endocrinology | Best Researcher Award

Director at Civil Aviation General Hospital | China

Prof. Jianbo Zhou is a distinguished clinician-scientist at Beijing Tongren Hospital, Capital Medical University, recognized for his extensive contributions to diabetes epidemiology, metabolic disorders, and their neurological and vascular implications. His scholarly work spans a broad spectrum of influential topics, including landmark contributions such as The Bidirectional Relationship Between Diabetes and Pulmonary Function: Evidence from Observational Studies, where he explores how metabolic dysregulation intersects with respiratory health. He has further advanced the understanding of neuro-metabolic interactions through his highly referenced synthesis, Impact of Antidiabetic Agents on Dementia Risk: A Bayesian Network Meta-Analysis, providing an integrated evaluation of pharmacologic strategies and cognitive outcomes. His expertise in environmental and gestational health is reflected in Air Pollution and Gestational Diabetes Mellitus: Evidence from Cohort Studies, while brain structural alterations in metabolic dysfunction are rigorously presented in Prediabetes and Structural Brain Abnormalities: Evidence from Observational Studies. Dr. Zhou has also contributed pivotal insights into maternal–fetal metabolic interactions through Maternal Diabetes Mellitus and Persistent Pulmonary Hypertension of the Newborn: A Systematic Review and Meta-Analysis. His work on microvascular complications is exemplified by titles such as Could Vitamin D Be Associated With Proliferative Diabetic Retinopathy?, Urine NGAL as an Early Biomarker for Diabetic Kidney Disease, and Plasma Metabolomic Profiling of Proliferative Diabetic Retinopathy, each of which reflects his commitment to precision biomarkers and early disease detection. Through studies like Prediction of Proliferative Diabetic Retinopathy to Asymptomatic Obstructive Coronary Artery Disease in Chinese T2D Individuals and Could Intensive Blood Pressure Control Really Reduce Diabetic Retinopathy Outcomes?, he connects ophthalmic findings with cardiovascular risk and therapeutic strategy. His comprehensive analyses, including Subclinical Hypothyroidism and the Risk of Chronic Kidney Disease in T2D Subjects and Prediction of Risk of Diabetic Retinopathy for All-Cause Mortality, Stroke and Heart Failure, further cement his reputation as a leading voice in linking metabolic dysfunction to multi-organ outcomes. Dr. Zhou’s overarching research interest centers on the complex interaction between metabolism and brain health, supported by his extensive experience in repeated-measure data analysis from longitudinal cohort studies focused on cerebrovascular events, positioning him as an influential thinker shaping the future landscape of endocrine and neurovascular research.

Profile:  Scopus | Orcid

Featured Publications:

Author, A. A., Author, B. B., Author, C. C., & Author, D. D. (2025). Preserved ratio impaired spirometry, airflow obstruction, and their trajectories in relationship to chronic kidney disease: A prospective cohort study. Scientific Reports.

Author, A. A., Author, B. B., Author, C. C., & Author, D. D. (2025). Relationship between dietary inflammatory index and chronic diseases in older U.S. adults: NHANES 1999–2018. BMC Public Health.

Author, A. A., Author, B. B., Author, C. C., Author, D. D., & Author, E. E. (2025). The effect of acylcarnitines on cognitive function: A two-sample Mendelian randomization study. Brain and Behavior.

Author, A. A., Author, B. B., Author, C. C., Author, D. D., & Author, E. E. (2025). Thyroid function and brain structure: Insight from a Mendelian randomization study. Neuroendocrinology.

Author, A. A., Author, B. B., Author, C. C., Author, D. D., Author, E. E., & Author, F. F. (2025). IGF-1R inhibitor IBI311 for the treatment of active thyroid eye disease in Chinese patients: The RESTORE-1 randomized clinical trial. JAMA Ophthalmology.

Ratnesh Das | Bio materials | Best Researcher Award

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Prof. Ratnesh Das | Bio materials | Best Researcher Award

Professor of Chemistry at Dr. Harisingh Gour Central University | India

Prof. Ratnesh Das is a distinguished Indian chemist and senior academic leader currently serving as Professor in the Department of Chemistry at Dr. Harisingh Gour Central University, Sagar, widely recognized for his extensive contributions to organic chemistry, pedagogical excellence, research mentorship, and university governance, with a strong academic foundation beginning from foundational schooling in Madhya Pradesh leading to advanced specialization in chemistry and culminating in a doctorate focused on chemical sciences; over his long professional journey he has taught undergraduate, postgraduate, and doctoral students while guiding numerous BS-MS dissertations and supervising multiple Ph.D. scholars, contributing significantly to the academic growth of the department; he has published more than eighty research papers and authored several book chapters that collectively reflect his commitment to high-quality scientific inquiry and his interest in synthetic methodologies, chemical analysis, and application-oriented chemical research; beyond teaching and research he has held multiple administrative responsibilities including Chairman of the Council of Wardens, Managing Editor of the University Journal of Science, Incharge Director of the Department of Physical Education, member of the Executive Council, Academic Council, Proctorial Board, various Boards of Studies, and School Boards, alongside providing key support at department level for NIRF, IQAC, admissions, counselling, physical verification, and academic planning; he has successfully completed externally funded research projects supported by national agencies and delivered numerous invited lectures, chaired scientific sessions, presented papers at national and international platforms, and served as organizer, convener, or coordinator for conferences, seminars, workshops, and AICTE-ATAL training programs; known for his leadership, scholarly discipline, community outreach including development of e-learning content, and commitment to institutional enrichment, Prof. Das continues to contribute actively to research, teaching, academic administration, and scientific development with dedication and distinction.

Profile:  Scopus | Orcid | Google Scholar

Featured Publications:

Hassan, I. U., Salim, H., Naikoo, G. A., Awan, T., Dar, R. A., Arshad, F., Tabidi, M. A., … Das, R. (2021). A review on recent advances in hierarchically porous metal and metal oxide nanostructures as electrode materials for supercapacitors and non-enzymatic glucose sensors. Journal of Saudi Chemical Society, 25(5), 101228.

Das, M., & Das, R. (2012). Need of education and awareness towards zinc supplementation: A review. International Journal of Nutrition and Metabolism, 4(3), 45–50.

Bhattacharya, S. K. K. S., Rathore, A., Parwani, D., Mallick, C., … Das, R. (2020). An exhaustive perspective on structural insights of SGLT2 inhibitors: A novel class of antidiabetic agent. European Journal of Medicinal Chemistry, 204, Article 112567.

Imran Khan, R. D. S. N. L., Pandit, U. J., & Wankar, S. (2017). Fabrication of electrochemical nanosensor based on polyaniline film-coated AgNP-MWCNT-modified GCE and its application for trace analysis of fenitrothion. Ionics, 23, 1293–1308.

Vyas, S., Shukla, A., Shivhare, S., Das, R., & Venkatesh, R. (2023). Core–shell structured polyaniline (PANI)–manganese dioxide (MnO₂) nanocomposites as an electrochemical sensor for detection of emamectin benzoate. ES Materials & Manufacturing, 23(2), 1002.

Amarendra Uttam | Heat Trasfer | Best Researcher Award

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Mr. Amarendra Uttam | Heat Trasfer | Best Researcher Award

Research Scholar at Rajiv Gandhi Institute of Petroleum Technology | India

Mr. Amarendra Uttam is a dedicated researcher and academic professional in Chemical and Biochemical Engineering whose work centers on the development, optimization, and scale-up of salt-hydrate-based phase change materials for advanced thermal energy storage, bringing forward innovative insights into latent heat storage, thermal management, and material performance enhancement through experimental and numerical evaluation; he is currently pursuing doctoral research at the Rajiv Gandhi Institute of Petroleum Technology with a thesis emphasizing experimental and numerical investigation of Na₂SO₄·10H₂O-based PCM composites, phase stability improvement, scalability assessment, and COMSOL-based simulation modeling for building and industrial applications, following an academic foundation in Mechanical Engineering through B.Tech. and M.Tech. programs that strengthened his expertise in thermodynamics, heat transfer, and energy systems; his published works highlight contributions to PCM-based thermal energy storage, polyurethane-encapsulated salt hydrates, multi-scale storage performance, PCM-integrated building cooling systems, and material behavior analysis under different operational conditions, along with research on MOF-based dye removal and salt-hydrate modification techniques; he has presented his research at national and international conferences, demonstrating interdisciplinary competence and delivering solutions relevant to sustainable development and energy-efficient technologies; his teaching experience spans several engineering institutes where he taught core subjects such as Engineering Thermodynamics, Applied Thermodynamics, Heat and Mass Transfer, Engineering Mechanics, and Theory of Machines while also serving in administrative roles including project coordination and placement cell responsibilities; proficient in COMSOL Multiphysics, FORTRAN, C, and computational modeling, he continues to advance research in thermal energy storage materials, passive cooling technologies, and PCM system design, establishing himself as a committed educator, researcher, and contributor to next-generation energy solutions.

Profile: Google scholar

Featured Publications:

Uttam, A., Purohit, B. K., Le, M. T., & Sistlais, V. S. (n.d.). Disodium phosphate dodecahydrate salt hydrate-based approach for thermal energy storage systems. Journal of Technical Education Science, 18(Special Issue 01), 1–7.

Uttam, A., Kumar, B., & Sistla, V. S. (n.d.). Performance analysis of a multi-scale thermal energy storage system with varying volumes using polyurethane-encapsulated sodium sulphate decahydrate for building applications. Energy and Buildings, 347.

Uttam, A., Kumar, B., & Sistla, V. S. (n.d.). Development of Na₂SO₄·10H₂O salt hydrate PCMs for thermal energy storage in building systems: A scale-up approach. ChemistrySelect, 10(43), e04616.

Uttam, A., Kumar, B., & Sistla, V. S. (n.d.). Performance analysis of a multi-scale scaled thermal energy storage system with varying volumes using polyurethane-encapsulated sodium sulphate decahydrate for building applications. Energy and Buildings, Article 116390.

Uttam, A., & Sarkar, J. (n.d.). Performance analysis of phase change material-based air-conditioning system. In 2nd International Conference on Emerging Trends in Engineering & Technology (Oral Presentation).

Man Wang | Biomedical Image Analysis and Informatics | Best Researcher Award

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Dr. Man Wang | Biomedical Image Analysis and Informatics | Best Researcher Award

Associate Professor at Qingdao University | China

Dr. Man Wang, is an associate professor at Qingdao University in Qingdao, Shandong Province, China, whose research leadership spans deep data mining and analysis, the mechanistic exploration of how non-coding RNAs drive tumor initiation and progression, the molecular and immunological foundations of viral infection-induced tumorigenesis, and the prevention and management strategies of virus-associated diseases, and who has established a significant academic footprint through the publication of 35 peer-reviewed papers as first or corresponding author in high-impact international journals including Molecular Cancer, Frontiers in Immunology, International Journal of Biological Sciences, and Cellular and Molecular Life Sciences, achieving more than 1,500 total citations, with representative studies encompassing influential investigations such as the clinical and immunological characterization of COVID-19 patient outcomes, the relationship between gut microbiota and COVID-19 progression with insights into immune regulation and therapeutic opportunities, the anticancer effects and microbiota-modulating mechanisms of flavonoids, the role of pyroptosis in cardiovascular disease, the origin, formation, and functional roles of extrachromosomal circular DNAs in cancer biology, the emerging clinical significance of exosomal circRNAs in tumor development, the contribution of non-coding RNAs to chemoresistance in hepatocellular carcinoma, and the tumor-promoting activities of specific circular RNAs, including those associated with hepatitis B virus-related liver cancer, thereby positioning Dr. Wang as a prominent scholar advancing molecular oncology, virus-related disease mechanisms, and translational biomedical research while contributing impactful discoveries that bridge clinical relevance with cutting-edge molecular insights.

Profile: Orcid

Featured Publications:

Wang, M., Chang, W., & Zhang, Y. (2025). Artificial intelligence for the diagnosis and management of cancers: Potentials and challenges. MedComm.

Wang, M., Yu, F., & Zhang, Y. (2025). Current status and prospects of artificial intelligence in liver cancer management. Intelligent Oncology.

Wang, M., Chen, X., Yu, F., Zhang, L., Zhang, Y., Chang, W., & Saretzki, G. (2022). The targeting of noncoding RNAs by quercetin in cancer prevention and therapy. Oxidative Medicine and Cellular Longevity.

Ding, H., An, Y., Zhao, T., Liu, B., Wang, Y., Zhang, L., Wang, Y., Zhang, Y., Wang, M., Dong, Y., et al. (2019). Large-scale rapid detection of circulating microRNAs in plasma for diagnosis and screening of specific diseases. Nanoscale.

Wang, M., Jiang, S., Zhang, Y., Li, P., & Wang, K. (2019). The multifaceted roles of pyroptotic cell death pathways in cancer. Cancers.

José Luis Clabel Huamán | Nonlinear Optics and Femtosecond Laser Microfabrication | Best Researcher Award

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Dr. José Luis Clabel Huamán | Nonlinear Optics and Femtosecond Laser Microfabrication | Best Researcher Award

Research at Universidade de São Paulo | Brazil

Dr. José Luis Clabel Huamán is a physicist whose scientific trajectory has been shaped by a solid academic foundation in Física from the Universidad Nacional Federico Villarreal, followed by advanced training through a Mestrado and Doutorado em Física at the Universidade Federal de São Carlos (UFSCar), where he investigated processamento, síntese e caracterização de compósitos magnetoelétricos baseados em manganitas e titanatos, consolidando competências em difração de raios-X, método de Rietveld, análise estrutural e propriedades magnetoelétricas; his career expanded through multiple pós-doutorados realizados no Instituto de Física de São Carlos (IFSC-USP), na EMBRAPA Instrumentação e na Universidade Federal de Viçosa (UFV), adquirindo ampla experiência em síntese de materiais avançados, microfabricação, fotônica e propriedades ópticas de perovskitas ABO3, com ênfase em distorções estruturais, acoplamentos multiferróicos e engenharia de banda eletrônica; at IFSC-USP he deepens his research in optical waveguide amplifiers, nonlinear optical responses, propagation-loss reduction and laser-induced microstructuring, integrating competências em microusinagem a laser de femtossegundos, XRD, Raman, XPS, MFM e HR-TEM to develop ceramic powders, thin films and tellurite-based glasses tailored for photonic devices; his investigations span luminescência, absorção óptica, cristalização induzida por laser, modificação de work function, aumento de eficiência SHG e engenharia de composições vítreas para aplicações que incluem guias de onda ópticos, cristais com resposta não linear aprimorada, blindagem gama e integração fotônica; Dr. Huamán also contributes to the scientific community as revisor de periódicos de alto impacto and as professor colaborador, uniting expertise in materiais multifuncionais, propriedades dielétricas e magnéticas, óptica não linear, espectroscopia avançada e ciência dos materiais aplicada ao desenvolvimento de dispositivos fotônicos emergentes.

Profile: Scopus | Orcid | Google Scholar

Featured Publications:

Clabel H., J. L., Awan, I. T., Lozano, G., Pereira-da-Silva, M. A. A., Romano, R. A., et al. (n.d.). Understanding the electronic properties of BaTiO₃ and Er-doped BaTiO₃ films through confocal scanning microscopy and XPS: Role of oxygen vacancy. Physical Chemistry Chemical Physics, 22, 15022–15034.

Clabel H., J. L., Lozano, G., Marega, E., Jr., & Rivera, V. A. G. (n.d.). XPS analysis of bridging and non-bridging oxygen in Yb³⁺–Er³⁺–Tm³⁺-doped zinc-tellurite glasses. Journal of Non-Crystalline Solids, 553, 120520.

Clabel H., J. L., Awan, I. T., Pinto, A. H., Nogueira, I. C., Bezzon, V. D. N., Leite, E. R., et al. (n.d.). Insights on the mechanism of solid-state reaction between TiO₂ and BaCO₃ to produce BaTiO₃ powders: The role of calcination, milling, and mixing solvent. Ceramics International, 46(3), 2987–3001.

Clabel H., J. L., Rivera, V. A. G., Li, M. S., Nunes, L. A. O., Leite, E. R., Schreiner, W. H., et al. (n.d.). Near-infrared light emission of Er³⁺-doped zirconium oxide thin films: An optical, structural and XPS study. Journal of Alloys and Compounds, 619, 800–806.

Clabel H., J. L., Awan, I. T., Rivera, V. A. G., Nogueira, I. C., Pereira-da-Silva, M. A., et al. (n.d.). Growth process and grain boundary defects in Er-doped BaTiO₃ processed by EB-PVD: A study by XRD, FTIR, SEM and AFM. Applied Surface Science, 493, 982–993.

 

Binyam Teferi | Bio-Mechanics | Lifetime achievement Award

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Assoc. Prof. Dr. Binyam Teferi | Bio-Mechanics | Lifetime achievement Award

Doctor at Wachemo University | Ethiopia

Dr. Binyam Zigta – Postdoctoral Researcher in Computational Modeling, Applied Mathematics, MHD, and Multiphase CFD — Dr. Binyam Zigta is an applied mathematician and computational fluid dynamics researcher whose work centers on advanced magnetohydrodynamic modeling, nanofluid transport, heat and mass transfer simulations, and nonlinear PDE analysis, bringing extensive expertise in viscous dissipation, thermal radiation, Joule heating effects, chemical reaction dynamics, slip-flow behavior, and species diffusion phenomena across engineering, biomedical, and energy-related fluid systems, and he has contributed more than ten peer-reviewed studies exploring free and mixed convection in porous and stretching media, micropolar fluid behavior, electrochemical transport, hybrid nanofluid performance, Carreau and Casson fluid mechanisms, and MHD-driven flow structures under complex boundary conditions, using MATLAB-based ODE/PDE solvers alongside finite difference, Runge–Kutta, similarity transformations, finite volume, and finite element approaches while expanding into COMSOL and OpenFOAM for multiphase CFD, and his publications span investigations on MHD-controlled free convection with periodic thermal and concentration variations, radiation-chemical-reaction-viscous-dissipation interactions in porous media, slip-conditioned blood flow modeling, hybrid nanofluid convection in modified cavity geometries, and fractional non-Newtonian fluid dynamics, reflecting a strong interdisciplinary capability that bridges mathematical theory with computational simulation, and his research interests include MHD flows for biomedical and energy applications, two-phase nanofluid systems with heat generation, drug-delivery-scale slip-flow modeling, and CFD applications in thermal and electrochemical systems, supported by extensive academic experience as a lecturer in applied mathematics, differential equations, and mathematical modeling and active participation in international scientific conferences across Europe, Asia, and global research communities while maintaining collaborations with leading researchers in fluid mechanics and computational modeling.

Profile: Orcid 

Featured Publications:

Zigta, B. (n.d.). Effect of thermal radiation and chemical reaction on MHD flow of blood in stretching permeable vessel. International Journal of Applied Mechanics and Engineering.

Zezhao Liu | Disaster Governance | Best Researcher Award

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Prof. Dr. Zezhao Liu | Disaster Governance | Best Researcher Award

Dean at Jiangsu Normal University | China

Prof. Dr. Zezhao Liu, a distinguished Professor in the Department of Government & Policy within the School of Public Administration & Society at Jiangsu Normal University, China, is a prominent scholar recognized for his extensive expertise in public administration, China’s policy development, and multi-disciplinary approaches to comparative politics, serving simultaneously as a consulting member of the Chinese Leadership Society, where he contributes to advancing national governance insights; over the course of his academic career he has developed a strong research portfolio centred on risk governance, policy innovation, governmental performance, and the evolving dynamics of disaster and emergency management systems, consistently integrating theoretical perspectives with empirical assessments of administrative efficiency and state responsiveness; his work demonstrates a deep commitment to exploring how governance structures adapt to complex social changes, how innovative policy mechanisms enhance public sector performance, and how governments can build resilient frameworks for addressing uncertainty and risk in rapidly transforming environments; through his scholarly contributions he has published widely in influential international and national journals such as Politics & Policy, International Journal of Project Management, China Public Administration, Chinese Public Administration Review, and International Review of Administrative Sciences, earning recognition for producing policy-relevant, practice-oriented research that supports more effective governance models; respected by peers for his analytical depth, interdisciplinary vision, and commitment to improving public sector systems, Professor Liu continues to contribute to shaping contemporary debates on governance modernization, institutional innovation, and public policy effectiveness, reinforcing his position as an influential voice in the field of administrative studies in China and beyond.

Profile: Scopus

Featured Publications:

Authors unknown. (2025). Brief communication: Composite urban resilience to typhoon disasters – an assessment of 27 cities in seven major river basins, China. Natural Hazards and Earth System Sciences.