Xiao Jiayu | Structural Engineering | Best Researcher Award

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Xiao Jiayu | Structural Engineering | Best Researcher Award

Central South University of Forestry and Technology | China

Xiao Jiayu is an emerging researcher from Central South University of Forestry and Technology, specializing in the interdisciplinary fields of landscape architecture and civil and hydraulic engineering. She earned her Bachelor’s degree in Landscape Architecture in 2024, ranking within the top 30% of her cohort, and is currently pursuing a Master’s degree in Civil and Hydraulic Engineering at the same institution, continuing her academic excellence with a strong research orientation. Her academic foundation integrates aesthetic, ecological, and structural design principles, reflected through outstanding performance in subjects such as landscape engineering, environmental psychology, urban green space planning, and advanced concrete and steel structure theories. Demonstrating exceptional analytical and technical abilities, she has developed a keen interest in sustainable design, structural safety, and green infrastructure systems that contribute to environmental resilience and urban livability. Her current research direction focuses on the integration of engineering precision with ecological sensitivity, aiming to advance innovative solutions for sustainable urban development and landscape restoration. Xiao Jiayu’s strong command of design software, numerical analysis, and experimental techniques enables her to bridge creative design with scientific rigor effectively. Throughout her academic journey, she has exhibited strong teamwork and leadership skills through university projects, collaborative design workshops, and interdisciplinary studies. Her academic pursuits reflect a deep commitment to fostering harmony between built environments and natural ecosystems, highlighting her potential to make significant contributions to sustainable construction and landscape innovation. With a growing academic profile and dedication to continuous learning, she represents the new generation of scholars poised to shape the future of civil engineering and environmental design through research-driven, socially responsible, and technologically informed approaches.

Profile: ORCID
Featured Publications:

Yuan, J., Xiao, J., & Huang, D. (2025, December). Experimental research on bond behavior of high-strength reinforcement in unconfined fly ash-based geopolymer concrete. Case Studies in Construction Materials.

Liwen Zhang | Operations Management | Best Researcher Award

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Ms. Liwen Zhang | Operations Management | Best Researcher Award

PhD candidate in Logistics Engineering and Management | Chang'an University | China

Ms. Liwen Zhang is an emerging scholar specializing in Project Management and Supply Chain Management, currently pursuing a Ph.D. in Logistics Engineering and Management at Chang’an University, China. Her academic journey reflects a strong foundation in Management Science and Engineering, supported by both undergraduate and postgraduate research experiences at the same institution. Ms. Zhang has co-authored several high-impact papers published in globally recognized JCR Q1 journals, including Technological Forecasting and Social Change, Humanities & Social Sciences Communications (a Nature sub-journal), and Mathematics. Her notable works explore cutting-edge themes such as power battery technology R&D strategies under competitive supply chain environments, interactive risk management in project portfolios, and the integration of project and supply chain management through optimization methods. She has demonstrated advanced methodological expertise and leadership in conceptualization, model design, and scholarly writing. Ms. Zhang’s collaborative research with prominent scholars like Prof. Libiao Bai and others underscores her commitment to interdisciplinary and globally relevant problem-solving in sustainable and technology-driven operations. Her studies contribute to optimizing organizational decision-making processes, fostering innovation, and promoting sustainable industrial practices, thus offering tangible value to both academia and industry. Through her meticulous and enthusiastic approach, she continues to advance the field’s understanding of how project management strategies can enhance supply chain resilience and technological innovation. With a growing research portfolio and multiple international publications, Ms. Zhang is well-positioned to make impactful contributions to the academic and professional communities dedicated to management science and engineering.

Profile: Scopus
Featured Publications:

Nadia Abdelwahed | Green Infrastructure | Best Researcher Award

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Assoc. Prof. Dr. Nadia Abdelwahed | Green Infrastructure | Best Researcher Award

Reseach Fellow | College of Business Management/King Faisal University | Saudi Arabia

Assoc. Prof. Dr. Nadia Abdelwahed is an accomplished academic and researcher with extensive expertise in Business Management, Entrepreneurship, and Sustainability, currently serving as an Associate Professor at the College of Business Administration, King Faisal University. With a Ph.D. in Business Management and Entrepreneurship from Kingston University, United Kingdom, she has built a distinguished academic career spanning over two decades across leading institutions in Saudi Arabia, Egypt, and the UK. Dr. Abdelwahed has authored and co-authored more than 35 research publications covering a broad spectrum of topics, including gender studies, digital economics, sustainability, education transformation post-COVID-19, and managerial innovation, many of which have been supported by the Deanship of Scientific Research at King Faisal University. Her work has contributed to advancing institutional performance and securing national accreditation for business programs, reflecting her strategic leadership and commitment to academic excellence. She has played an instrumental role in curriculum development, quality assurance, and strategic planning initiatives, enhancing both teaching standards and student learning outcomes. Beyond academia, Dr. Abdelwahed’s societal impact is evident through her active engagement in community development initiatives, organizing training programs and workshops on Total Quality Management, Sustainability, Managerial Skills, and Entrepreneurship, which have empowered students, employees, and marginalized groups such as women breadwinners and single mothers. Her professional collaborations span interdisciplinary and cross-institutional research projects, contributing to global knowledge dissemination and fostering innovation in business education. As a mentor and educator, she emphasizes pedagogical innovation, academic integrity, and the holistic development of students, ensuring they are equipped with leadership, analytical, and ethical competencies essential for modern business environments. With her dedication to research, education, and social empowerment, Dr. Abdelwahed continues to make a meaningful contribution to academia and the broader community through her vision of sustainable and inclusive business development.

Profile: Google Scholar | Scopus
Featured Publications:

Changbai Wang | Structural Engineering | Best Researcher Award

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Dr. Changbai Wang | Structural Engineering | Best Researcher Award

Vice-Dean | Anhui University of Science and Technology | China

Dr. Changbai Wang, affiliated with Anhui University of Science and Technology, Huainan, China, is a distinguished researcher recognized for his significant contributions to the field of construction materials and sustainable concrete technologies. With a robust publication record of 20 scholarly documents, his research has achieved over 343 citations across 326 documents, reflecting a notable h-index of 10, underscoring the consistent quality and influence of his academic work. Dr. Wang’s research primarily focuses on high-performance concrete (HPC), internal curing mechanisms, and the innovative utilization of industrial by-products, particularly coal gangue aggregates, to enhance the sustainability and performance of civil engineering materials. His recent works, such as studies on pore-regulated coal aggregates and self-compacting tunnel concrete, demonstrate his commitment to advancing environmentally responsible construction practices. Collaborating with over 40 co-authors, he has fostered interdisciplinary partnerships that bridge material science, civil engineering, and environmental sustainability. Through his extensive research collaborations, Dr. Wang contributes to the global discourse on low-carbon construction, emphasizing circular economy principles and resource optimization in infrastructure development. His scholarly influence extends beyond academia, as his findings have practical implications for industries aiming to reduce ecological footprints while maintaining material performance. The societal impact of his work lies in promoting sustainable material innovation aligned with modern infrastructure needs. With ongoing projects and emerging studies in high-performance concrete applications, Dr. Wang demonstrates strong potential for further breakthroughs in green construction materials and structural durability research. His academic trajectory and commitment to addressing global environmental challenges position him as a key contributor to the future of sustainable construction and materials engineering.

Profile: Scopus | ORCID
Featured Publications:

  • Updated internal curing for HPC using pore-regulated coal aggregates. Case Studies in Construction Materials.

  • Internal curing for tunnel self-compacting concrete using pre-soaked coal gangue: A promising way for spot utilization of coal gangue. Iranian Journal of Science and Technology Transactions of Civil Engineering.

Maloth Naresh | Structural Health Monitoring | Best Researcher Award

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Dr. Maloth Naresh | Structural Health Monitoring | Best Researcher Award

Assistant Professor | Sharad Institute of Technology College of Engineering Yadrav | India

Dr. Maloth Naresh is an accomplished researcher and academic in Structural Engineering, specializing in data-driven and machine learning applications for Structural Health Monitoring (SHM) of steel frame structures. He earned his Ph.D. from the National Institute of Technology Hamirpur in 2024, where his doctoral research focused on developing advanced machine learning algorithms to monitor, predict, and assess joint damages in steel structures under varying environmental and operational conditions. With a strong publication record in high-impact SCI and SCIE-indexed journals such as Smart Materials and Structures, Strain (Wiley), and Asian Journal of Civil Engineering, Dr. Naresh has significantly contributed to the intersection of civil engineering and computational intelligence. His works on CNN–LSTM-based hybrid models and optimized SVM frameworks have advanced precision in damage detection, enabling early prediction and maintenance optimization in complex infrastructure systems. Recognized among the top-cited authors by Strain for 2023, his research demonstrates both academic excellence and practical relevance. He has presented papers at reputed international conferences including NIT Silchar and IIT Hyderabad and has also submitted a national-level research proposal under the NSTMIS scheme. Currently serving as Head of the Civil Engineering Department at Sharad Institute of Technology College of Engineering, Maharashtra, he fosters research collaborations with scholars from NIT Hamirpur, NIT Sikkim, and the University of Huddersfield (UK), emphasizing global partnerships and interdisciplinary innovation. His technical expertise spans MATLAB programming, ANSYS modeling, AutoCAD design, and advanced data analysis in structural dynamics. Dr. Naresh’s academic journey is marked by consistent excellence, including qualifying GATE 2015 and earning an HRD Scholarship from the Government of India. With nine high-quality publications and growing recognition across the research community, he continues to expand his scholarly impact through innovative methodologies that enhance the reliability, sustainability, and safety of civil infrastructure systems worldwide.

Profile: Google Scholar
Featured Publications:

Fernando Garrido de Oliveira | Environmental Engineering | Best Researcher Award

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Dr. Fernando Garrido de Oliveira | Environmental Engineering | Best Researcher Award

Researcher | Federal University of Paraná | Brazil

Dr. Fernando Garrido de Oliveira’s research experience centers on environmental engineering, biotechnology, and ecology, with a strong focus on projects related to water quality monitoring, environmental risk assessment, and ecosystem sustainability. His professional journey demonstrates a clear trajectory toward the integration of applied research and environmental management. At the Federal University of Paraná, he has been engaged in projects emphasizing the monitoring and biomonitoring of freshwater resources, applying limnological and toxicological analyses to assess water quality and ecological impacts. His work combines laboratory experimentation and field analysis, contributing to improved methodologies in environmental monitoring. Previous roles at C.Vale Cooperativa Agroindustrial further strengthened his expertise in quality management systems, internal auditing, and environmental process control—skills that complement his scientific research by ensuring rigorous standards and compliance with environmental regulations. His collaborations with institutions such as ARDEFA and FAMAB provided hands-on experience in waste management, agrochemical packaging control, and the implementation of sustainability protocols in industrial and agricultural contexts. His research interests encompass environmental toxicology, bioprocess technology, sustainable water management, and the development of integrated environmental monitoring systems using biotechnology tools. He also exhibits a strong command of risk management, biosafety, and environmental auditing based on ISO 14001:2015 frameworks, as evidenced by his multiple certifications. With advanced skills in statistics, QGIS, and environmental modeling, Fernando effectively bridges theoretical knowledge with applied solutions for ecosystem conservation and industrial environmental performance. His multidisciplinary approach positions him to contribute meaningfully to innovative projects addressing global sustainability challenges through the synergy of ecological science, biotechnology, and environmental engineering.

Profile: Scopus | ORCID
Featured Publications:
  • Environmental assessment of three southern Brazilian rivers using an integrated biomarker response index in Hypostomus ancistroides applied to GIS. Environmental Research.

Saad A. Aljlil | Water and Wastewater Treatment | Best Researcher Award

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Prof. Saad A. Aljlil | Water and Wastewater Treatment | Best Researcher Award

Chief researcher | King Abdullaziz City for Science and Technology | Saudi Arabia

Prof. Saad A. Aljlil’s research is deeply rooted in sustainability and environmental innovation, focusing on advanced technologies for water treatment, desalination, and resource recovery. His extensive experience at the King Abdulaziz City for Science and Technology (KACST) includes managing multidisciplinary projects in membrane technology, renewable energy integration, and environmental remediation. Dr. Aljlil has led and contributed to numerous funded projects on polymer and ceramic membrane development, hybrid ion exchange-nanofiltration systems, and adsorption technologies for removing heavy metals and dyes from wastewater. His work on solar desalination, greywater treatment, and lithium extraction from desalination brines demonstrates his commitment to addressing global water and energy challenges through green technologies. He has developed patented innovations in desalination and wastewater purification, particularly focusing on adsorbent synthesis from natural and waste materials to promote circular economy practices. His collaboration with national and international research centers has resulted in high-impact publications and novel applications such as smart water networks, ceramic membrane distillation, and AI-assisted sustainable filtration systems. As Editor-in-Chief of Applied Water Science and a board member in energy and water sustainability programs, he has contributed significantly to advancing environmental policy and technological foresight. His research interests also extend to nanotechnology applications, including the study of nanoplastics' environmental impacts and the integration of metal-organic frameworks in water purification. Through his visionary approach and applied research leadership, Dr. Aljlil has strengthened Saudi Arabia’s role in global sustainability initiatives like the Saudi Green Initiative, emphasizing eco-innovation, renewable resource utilization, and efficient water management systems. His work exemplifies the fusion of scientific excellence with environmental stewardship, creating pathways for sustainable water and energy solutions in future smart cities.

Profile: Scopus
Featured Publications:

  • Synthesis, cytotoxicity, molecular docking, DFT analysis and ADMET studies of imidazo[1,2-b][1,2,4]triazine based pyrimidine derivatives as PI3Kα selective inhibitors. Journal of Molecular Structure.

  • Antibiotic removal from wastewater via ceramic membrane distillation: Toward clean water and antimicrobial resistance mitigation aligned with Sustainable Development Goals (SDGs). Indonesian Journal of Science and Technology.

  • Biomass-engineered rGO coupled with ytterbium doped cobalt pyrovanadate: A sustainable electrode material for supercapacitor and OER activity. Diamond and Related Materials.

  • Upcycling waste plastics into rGO-Yb@NiFe₂O₄ hybrid electrodes for high-performance supercapacitors and hydrogen evolution. Diamond and Related Materials.

Sunkwon Yoon | Water Resources Engineering | Best Researcher Award

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Dr. Sunkwon Yoon | Water Resources Engineering | Best Researcher Award

Research Fellow | The Seoul Institute | South Korea

Dr. Sunkwon Yoon’s research career demonstrates extensive contributions to hydrology, climate science, and urban water management, with a focus on developing adaptive technologies to mitigate the impacts of climate change. His research projects span smart water management systems, integrated flood risk assessment, and the design of resilient urban hydrologic infrastructures. As a principal investigator at the APEC Climate Center, he led international projects such as the development of smart water management solutions for the Kingdom of Tonga, integrating climate information to address water scarcity, and predictive systems for mud and debris flow considering urban characteristics. His work also includes advanced modeling techniques for flood forecasting, drought assessment, and inland-river systems management, emphasizing the application of stochastic and statistical hydrology to real-world problems. At the Seoul Institute of Technology and earlier at KAIST, his research explored risk-based water management, green growth initiatives, and climate-resilient urban development. His primary research interests include urban hydrology, smart water technology, flood and drought frequency analysis, and hydrometeorological variability linked to global climate phenomena such as ENSO and the Indian Ocean Dipole. Dr. Yoon’s studies have contributed significantly to improving prediction accuracy for extreme weather events, enhancing water security, and formulating sustainable water policies for urban resilience. Through collaborative efforts across government and international organizations, his experience bridges scientific modeling and policy-driven decision-making for disaster risk reduction. His ongoing focus on integrating hydrologic modeling with data-driven approaches reflects a commitment to advancing sustainable and adaptive water resource management under the evolving challenges of climate variability.

Profile: Google Scholar
Featured Publications:

  • Kim, J. P., Jung, I. W., Park, K. W., Yoon, S. K., & Lee, D. (2016). Hydrological utility and uncertainty of multi-satellite precipitation products in the mountainous region of South Korea. Remote Sensing, 8(7), 608.

  • Kim, J. S., Jain, S., & Yoon, S. K. (2012). Warm season streamflow variability in the Korean Han River Basin: Links with atmospheric teleconnections. International Journal of Climatology, 32(4), 635–640.

  • Moon, H., Yoon, S., & Moon, Y. (2023). Urban flood forecasting using a hybrid modeling approach based on a deep learning technique. Journal of Hydroinformatics, 25(2), 593–610.

  • Lee, T., Ouarda, T. B. M. J., & Yoon, S. (2017). KNN-based local linear regression for the analysis and simulation of low flow extremes under climatic influence. Climate Dynamics, 49(9), 3493–3511.

  • Yoon, S. K., Kim, J. S., & Moon, Y. I. (2014). Integrated flood risk analysis in a changing climate: A case study from the Korean Han River Basin. KSCE Journal of Civil Engineering, 18(5), 1563–1571.

Lutfar Rana | Building Materials | Best Researcher Award

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Mr. Lutfar Rana | Building Materials | Best Researcher Award

Asst.Prof | Bangladesh Army International University of science and Technology | Bangladesh

Md. Lutfar Rahman Talukder Rana has established a growing research portfolio in Civil and Structural Engineering, focusing primarily on sustainable materials, structural resilience, and innovative concrete technologies. His professional journey as an Assistant Professor and former Head of Department reflects his expertise in managing academic and research initiatives while guiding engineering projects with real-world impact. His research projects revolve around recycled materials in construction, particularly examining the fresh and mechanical properties of concrete incorporating recycled waste glass and brick aggregates. He has contributed to high-impact Q1 journals such as Journal of Building Engineering and Construction & Building Materials, with notable studies addressing the behavior of recycled concrete, fire-damaged reinforced columns, and ferrocement strengthening techniques. Rana has also participated in international conferences, presenting work on sustainable development within civil engineering, demonstrating a consistent commitment to environmental consciousness in infrastructure development. His professional experience extends to organizing seminars like “Seismic Detailing of Reinforced Concrete Structures,” emphasizing his engagement in knowledge dissemination and technical skill development. His research interest lies in developing eco-friendly, high-performance building materials, structural retrofitting, and seismic design strategies that enhance durability and sustainability. His collaborative work with experts from BUET and MIST further supports his interdisciplinary approach and pursuit of innovation. With growing recognition, as indicated by his ResearchGate citation count (45) and continued publication in reputed outlets, Rana is contributing meaningfully to the advancement of structural and materials engineering. His future endeavors aim to optimize the integration of recycled components in concrete and explore advanced composite materials to meet global sustainability goals in the construction industry.

Profile: Scopus

Featured Publications:
Effect of waste glass on the flexural response of reinforced concrete beams containing recycled brick aggregate. Cleaner Materials.

Loannis Christodoulou | Materials Science and Engineering | Best Researcher Award

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Mr. Loannis Christodoulou | Materials Science and Engineering | Best Researcher Award

PhD Candidate | National Technical University of Athens | Greece

Mr. Ioannis Christodoulou’s research activities encompass advanced studies in manufacturing technologies, additive manufacturing, and the mechanical behavior of composite materials. His current work as a researcher in the national AMOS Project focuses on the development and experimental evaluation of auxetic lattice structures designed for biomedical implants, emphasizing mechanical adaptability and biocompatibility. He has significant project experience in the modeling and optimization of high-deposition-rate 3D printing processes for amorphous materials, supported by competitive research funding. His applied engineering expertise extends to projects such as digitalizing hospital operation rooms, developing smart urban infrastructure like automated VR benches, and designing precision mechanical systems such as fabric tape winding mechanisms. His research interests lie in additive manufacturing, rapid prototyping, finite element analysis, and mechanical design automation. Christodoulou has contributed to multiple peer-reviewed publications on Fused Filament Fabrication (FFF), exploring surface roughness, geometrical accuracy, and mechanical properties of composite filaments like Nylon-Carbon Fiber and ABS-Kevlar. His investigations integrate experimental work with computational modeling, reflecting a strong commitment to improving the efficiency and performance of 3D printing systems. In parallel, his professional experience includes roles in mechanical design and optimization across industries such as interior engineering and elevator manufacturing, where he implemented CAD-based automation to enhance production workflows. He has presented his findings at numerous international conferences and has been recognized with distinctions including first place in the NASA Space Apps Challenge and the NTUA Student Innovative Paper Award. His continuing research aims to expand the practical capabilities of additive manufacturing for industrial and medical applications, promoting sustainable innovation and precision in material processing and design engineering.

Profile: Google Scholar
Featured Publications:

  • Alexopoulou, V. E., Christodoulou, I. T., & Markopoulos, A. P. (2022). Effect of printing speed and layer height on geometrical accuracy of FDM-printed resolution holes of PETG artifacts. Engineering Proceedings, 24(1), 11.

  • Christodoulou, I. T., Alexopoulou, V. E., Karkalos, N. E., Papazoglou, E. L., & Markopoulos, A. P. (2022). On the surface roughness of 3D printed parts with FDM by a low-budget commercial printer. Cutting & Tools in Technological System, 52–64.

  • Christodoulou, I. T., Alexopoulou, V. E., & Markopoulos, A. P. (2024). An experimental investigation of the mechanical properties of fused filament fabricated nylon-carbon fiber composites. Cutting & Tools in Technological System, 148–167.

  • Alexopoulou, V. E., Christodoulou, I. T., & Markopoulos, A. P. (2024). Investigation of printing speed impact on the printing accuracy of fused filament fabrication (FFF) ABS artefacts. Manufacturing Technology, 24, 333–337.

  • Christodoulou, I., Alexopoulou, V., & Markopoulos, A. P. (2023). Study and development of a high-speed fused filament fabrication 3D printer. In 2023 8th South-East Europe Design Automation, Computer Engineering, Computer Applications Conference (SEE-Conference).