Ahmed Albojamal | Energy Sustainability | Research Excellence Award

Published on by Scientist Day

Dr. Ahmed Albojamal | Energy Sustainability | Research Excellence Award

San Diego City College | United States

Dr. Ahmed Albojamal is a mechanical engineer specializing in thermal transport, nanofluids, electronic cooling, and phase change materials. His research focuses on heat transfer enhancement in porous media and metal foams, nanofluid flow modeling, and energy storage systems. He has contributed extensively to understanding particle deposition, natural and forced convection, and thermal management in complex geometries, integrating numerical simulations with experimental analysis. His work advances energy-efficient HVAC systems, thermal management of electronic devices, and sustainable building technologies. With multiple peer-reviewed publications and expertise in both theoretical and applied thermal sciences, he bridges engineering fundamentals with practical energy solutions.

Citation Metrics (Scopus)

  450
  300
   150
    50
       0

Citations
323

Documents
7

h-index
6

Citations

Documents

h-index


View Scopus Profile    View Orcid Profile View Google Scholar Profile

Featured Publications

Xiaolu Yuan | Material Science | Research Excellence Award

Published on by Scientist Day

Dr. Xiaolu Yuan | Material Science | Research Excellence Award

University of Science and Technology Beijing | China

Yuan Xiaolu is a materials scientist specializing in diamond-based wide-bandgap semiconductors and advanced carbon materials. His research focuses on diamond material synthesis, surface conductivity engineering, high-performance diamond electronic devices, and carbon-based composites such as graphene–diamond and carbon nanotube/diamond systems with enhanced electrical, thermal, and photothermal properties. He has strong expertise in thin-film deposition, surface modification, interface engineering, and device fabrication, supported by extensive international research collaboration with leading institutions in Japan and China. He has published numerous peer-reviewed papers in high-impact journals covering diamond MOSFETs, ohmic contacts, all-carbon heterostructures, and ultra-efficient heat transport interfaces. His work bridges fundamental materials science and practical device applications. In addition, he holds multiple authorized invention patents related to diamond device fabrication, surface engineering, and carbon composite preparation. He also serves as a principal investigator and technical lead for a nationally funded project focused on diamond materials for self-powered heterogeneous integrated chip technologies.

View Orcid Profile

Featured Publications

Eleni Efthimiadou | Material Science | Best Researcher Award

Published on by Scientist Day

Prof. Dr. Eleni Efthimiadou | Material Science | Best Researcher Award

National and Kapodistrian University of Athens | Greece

Eleni K. Efthimiadou is a distinguished academic and researcher in the field of Inorganic and Bioinorganic Chemistry, with a strong interdisciplinary focus on nanotechnology, nanomedicine, and advanced biomedical applications. She serves as a faculty member in the Laboratory of Inorganic Chemistry at the Department of Chemistry of the National and Kapodistrian University of Athens, where her work bridges fundamental chemistry with translational biomedical research. Her scientific expertise centers on the design, synthesis, surface modification, and physicochemical characterization of inorganic, organic, and hybrid nanomaterials with targeted biological functionality. A core aspect of her research is the development of multifunctional nanostructures—such as magnetic nanoparticles, gold and silver nanostructures, quantum dots, liposomal systems, and hybrid nanocomposites—for diagnostic, therapeutic, and theranostic applications. These systems are extensively evaluated through in vitro and in vivo biological models, addressing critical challenges in cancer diagnosis and treatment, inflammation-related diseases, antimicrobial resistance, and energy-related applications. She has extensive experience in advanced spectroscopic, microscopic, thermal, and magnetic characterization techniques, as well as in biological evaluation methodologies including cytotoxicity, oxidative stress, DNA interaction, apoptosis, angiogenesis inhibition, hyperthermia, and antimicrobial testing. Her in vivo research expertise includes biodistribution, biocompatibility, and therapeutic efficacy studies in established animal models, with full accreditation for laboratory animal research.Eleni K. Efthimiadou has made a substantial contribution to graduate and postgraduate education, having supervised a large number of undergraduate theses, master’s dissertations, and doctoral dissertations, many of which focus on cutting-edge nanochemical and biomedical research topics. She has also actively participated in doctoral and postgraduate examination committees in Greece and abroad. Her scholarly output includes a high volume of peer-reviewed publications in internationally recognized journals, with strong citation metrics reflecting significant scientific impact. Through her combined roles as researcher, educator, and mentor, she continues to advance the fields of bioinorganic chemistry and nanomedicine while fostering the next generation of scientists.

Citation Metrics (Google Scholar)

5000
4000
3000
2000
1000
0

Citations
4927

h-index
37

i10-index
74

Citations

h-index

i10-index



View Google Scholar Profile

Featured Publications

Yun Liu | Material Science | Research Excellence Award

Published on by Scientist Day

Ms. Yun Liu | Material Science | Research Excellence Award 

Ms. Yun Liu | Beihua University | China

Yun Liu is a materials researcher affiliated with Beihua University, specializing in wood protection, wood anatomy, and weather-resistant material modification. With a strong academic foundation supported by a Master’s degree in Materials and Chemical Engineering, Yun Liu has developed expertise in material characterization, performance testing, and advanced analytical techniques used to evaluate structural, chemical, and aesthetic changes in lignocellulosic materials. A key contribution of Yun Liu’s work is the innovative investigation into the dynamic weathering behavior of heat-treated wood. This research integrates continuous monitoring of visual and structural degradation with in-depth chemical analysis, offering a holistic framework for understanding the durability of modified wood materials. By correlating changes in color, gloss, and surface properties with transformations in lignin, extractives, and microstructural features, the study provides essential insights into how heat treatment influences early-stage weathering. Importantly, the findings reveal that heat treatment adjusts the degradation pathways of lignin, contributing to enhanced color stability rather than merely slowing chemical deterioration. This mechanistic understanding supports the development of targeted modification strategies for improving the long-term service life and aesthetic performance of outdoor wood products. Yun Liu has published as first author in the journal Polymers, where the study on dynamic weathering of heat-treated Chinese fir highlights the scientific and practical relevance of this research. This work establishes a foundation for future advancements in sustainable wood protection technologies and environmentally conscious material engineering. Committed to academic integrity and professional growth, Yun Liu maintains active research links through recognized scholarly platforms and contributes to the broader scientific community through collaboration and knowledge dissemination. With a focus on innovation, material durability, and eco-friendly wood modification, Yun Liu aims to advance high-impact research aligned with the standards of the Research Excellence Award category.

Profile: Orcid

Featured Publications

Liu, Y., Gao, C., Wang, Q., Hadili, B., Miao, Y., Cui, X., & Matsumura, J. (2025). Dynamic weathering behavior of heat-treated Chinese fir: Surface properties, chemical composition, and microstructure. Polymers, 17(23), 3143. https://doi.org/10.3390/polym17233143

Dr. Sacha Cavelier | Material Science | Best Researcher Award | 2625

Published on by Scientist Day

Dr. Sacha Cavelier | Material Science | Best Researcher Award

Dr. Sacha Cavelier | Queensland University of Technology | Austria

Dr. Sacha Cavelier is a mechanical engineer and postdoctoral researcher at the Queensland University of Technology (QUT), specializing in advanced biomaterials, bone tissue engineering, and biomechanical characterization. Graduating as a biomedical-focused engineer from the École des Mines de Saint-Étienne (France), he advanced his research career through a Master’s and PhD in Mechanical Engineering at McGill University (Canada). His doctoral work introduced innovative strategies for next-generation bone graft materials, including multilayered titanium–calcium sulfate composites with superior strength, biocompatibility, and biodegradability, and led to multiple high-impact publications and patents. With more than seven years dedicated to developing ceramic-titanium bone graft composites, Dr. Cavelier has become a recognized expert in toughened biomaterials and bone regeneration. He further expanded his expertise during his postdoctoral fellowship at Ohio University, where he developed mineralized collagen scaffolds, supervised graduate students, and contributed to grant writing. At the University of Adelaide, he served as a visiting researcher, investigating the mechanical properties of human dura mater and pericranium. Currently at QUT’s ARC Centre for Cell & Tissue Engineering Technologies, Dr. Cavelier leads research on cartilage characterization, antibacterial coatings, and intramedullary implant technologies, including in vivo efficacy studies. He supervises PhD students, contributes to collaborative research programs, and continues to publish in leading journals such as Advanced Materials, Nanomaterials, Bioactive Materials, and Journal of the Mechanical Behavior of Biomedical Materials. Dr. Cavelier’s technical skillset spans additive manufacturing, finite-element modeling, biochemistry, mechanical testing, microscopy, and high-precision fabrication.

Profile: Google Scholar

Featured Publications

Yu, L., Cavelier, S., Hannon, B., & Wei, M. (2023). Recent development in multizonal scaffolds for osteochondral regeneration. Bioactive Materials, 25, 122–159.

Cavelier, S., Dastjerdi, A. K., McKee, M. D., & Barthelat, F. (2018). Bone toughness at the molecular scale: A model for fracture toughness using crosslinked osteopontin on synthetic and biogenic mineral substrates. Bone, 110, 304–311.

Cavelier, S., Mirmohammadi, S. A., & Barthelat, F. (2021). Titanium mesh-reinforced calcium sulfate for structural bone grafts. Journal of the Mechanical Behavior of Biomedical Materials, 118, 104461.

Cavelier, S., Quarrington, R. D., & Jones, C. F. (2022). Mechanical properties of porcine spinal dura mater and pericranium. Journal of the Mechanical Behavior of Biomedical Materials, 126, 105056.

Cavelier, S., Quarrington, R. D., & Jones, C. F. (2022). Tensile properties of human spinal dura mater and pericranium. Journal of Materials Science: Materials in Medicine, 34(1), Article 4.

Cavelier, S., Tanzer, M., & Barthelat, F. (2020). Maximizing the strength of calcium sulfate for structural bone grafts. Journal of Biomedical Materials Research Part A, 108(4), 963–971.

Noboru Konda | Material Science | Best Researcher Award

Published on by Scientist Day

Prof. Dr. Noboru Konda | Material Science | Best Researcher Award

Prof. Dr. Noboru Konda | Ryukoku University | Japan

Prof. Noboru Konda is a distinguished materials science expert whose career spans academia, advanced engineering, and applied industrial research. Trained at Kyoto University and later awarded a doctorate from Osaka University, he established a strong foundation in metallurgical engineering early in his career. His professional journey began in the steel industry, where he contributed to the structural assessment and performance evaluation of thick steel plates. This experience deepened his understanding of material behavior under demanding conditions and guided his ongoing commitment to developing stronger and more reliable materials. Prof. Konda has made significant contributions to the study of fatigue crack growth, particularly in base materials and welded joints. His work explores how materials behave in both normal and corrosive environments, and he has successfully identified structural characteristics that enhance durability and resistance to failure. His research approach combines experimental investigations with advanced evaluation techniques, offering valuable insights for industries that rely on the long-term stability of metals and other structural components. At Ryukoku University, Prof. Konda continues to expand his research by investigating the strength, soundness, and degradation mechanisms of a broad range of materials, including metals, resin composites, wood, and rubber. His interdisciplinary focus addresses real-world challenges encountered in manufacturing, infrastructure, and product development. Beyond research, he actively mentors students, engages in collaborative projects, and contributes to the academic community through publications, expert reviews, and knowledge-sharing activities. His academic and industrial background allows him to bridge scientific innovation with practical application. With a career dedicated to understanding and improving material performance, Prof. Konda remains committed to advancing safe, efficient, and reliable engineering solutions. His work continues to support scientific progress, industrial development, and the broader field of materials engineering.

Profile: Scopus

Featured Publications

Konda, N., & Kayamori, Y. (2025). Fatigue properties of welded structural steels initiated from long-term corroded surfaces. Solid State Phenomena, Trans Tech Publications

Konda, N., Mori, M., Shindoh, Y., & Kitamura, T. (2025). Fatigue strength evaluation of linear friction welded joints for S55C steel plates. Welding International. Taylor & Francis.

Sayed Abdul Majid Gilani | Emerging Technologies | Best Researcher Award

Published on by Scientist Day

Dr. Sayed Abdul Majid Gilani | Emerging Technologies | Best Researcher Award

Dr. Sayed Abdul Majid Gilani | Birmingham City University | United Kingdom

Dr. Sayed Abdul Majid Gilani is an accomplished researcher in electrical and electronic engineering, specializing in embedded systems, automation, and control engineering. His multidisciplinary research integrates hardware design, sensor networks, and artificial intelligence to develop innovative and energy-efficient solutions for real-world challenges. With over a decade of experience in academia and applied research, Dr. Gilani has contributed significantly to the advancement of embedded control technologies, renewable energy optimization, and industrial automation systems. His work emphasizes intelligent system design, IoT-based automation, and the integration of machine learning algorithms for enhanced performance and sustainability. Dr. Gilani has published extensively in high-impact journals and presented at leading international conferences, reflecting his global engagement and scientific rigor. He has also supervised numerous research projects and guided students in developing practical applications of emerging technologies. His research outputs demonstrate a strong commitment to technological innovation that bridges the gap between theory and application. Recognized for his academic excellence and collaborative research initiatives, Dr. Gilani continues to advance cutting-edge developments that contribute to the evolution of smart, adaptive, and efficient engineering systems—making him a deserving candidate for the Best Researcher Award.

Profiles: Google Scholar | Scopus | LinkedIn | Research Gate

Featured Publications 

Gilani, S. A. M., & Faccia, A. (2021). Broadband connectivity, government policies, and open innovation: The crucial IT infrastructure contribution in Scotland. Journal of Open Innovation: Technology, Market, and Complexity, 8(1), 1. https://doi.org/10.3390/joitmc8010001

Gilani, S. A. M., Copiaco, A., Gernal, L., Yasin, N., Nair, G., & Anwar, I. (2023). Savior or distraction for survival: Examining the applicability of machine learning for rural family farms in the United Arab Emirates. Sustainability, 15(4), 3720. https://doi.org/10.3390/su15043720

Gilani, S., Gernal, L., Tantry, A., Yasin, N., & Sergio, R. (2022). Leadership styles adopted by Scottish micro-businesses during the COVID-19 pandemic. In Proceedings of the International Conference on Business and Technology (pp. 144–156). Springer.

Al Jaghoub, J., Suleiman, A., Takshe, A. A., Moussa, S., Gilani, S. A. M., Sheikh, S., & others. (2024). The role of innovation in waste management for enterprises: A critical review of the worldwide literature. In Technology-Driven Business Innovation (pp. 453–464). Springer.

Gernal, L., Tantry, A., Gilani, S. A. M., & Peel, R. (2024). The impact of online learning and soft skills on college student satisfaction and course feedback. In Technology-Driven Business Innovation: Unleashing the Digital Advantage (pp. 42–54). Springer.

Gilani, S. A. M., Tantry, A., Askri, S., Gernal, L., & Sergio, R. (2023). Adoption of machine learning by rural farms: A systematic review. In Proceedings of the International Conference on Computing and Informatics (pp. 324–335). Springer.

Shadi Shayan | Emerging Technologies | Best Researcher Award

Published on by Scientist Day

Dr. Shadi Shayan | Emerging Technologies | Best Researcher Award

Dr. Shadi Shayan | Adelaide University | Australia

Dr. Shadi Shayan’s research lies at the intersection of project management, smart technologies, and social sustainability, focusing on how large-scale urban innovation programs can effectively manage social risks and deliver equitable outcomes. His scholarly work explores the dynamic relationships between technological transformation, social response, and governance frameworks in smart city development. By integrating change management models with risk management processes, Dr. Shayan has developed innovative frameworks that address the socio-demographic dimensions of smart city transitions—bridging theory, practice, and policy. His doctoral research, “Integrating change models and risk management processes: A framework to manage social risks in smart city programs”, provides a comprehensive model for mitigating community resistance and fostering inclusive participation in technologically driven urban initiatives. Dr. Shayan’s publications in leading journals such as Smart Cities, Sustainable Cities and Society, and International Journal of Construction Management advance understanding of how social factors, demographic variables, and stakeholder perceptions influence the success of smart city and infrastructure projects. A consistent theme in his research is the application of systems thinking and socio-technical analysis to enhance decision-making in project and program management. He also examines the evolving roles of professionals, including engineers and quantity surveyors, in adapting to emerging technological and societal challenges. Dr. Shayan’s work has significant implications for both academia and industry. It informs policy frameworks for smart urban governance, supports organizational strategies for managing social risk, and contributes to sustainable and resilient infrastructure planning. Through interdisciplinary collaborations and active engagement with the Smart Cities Council Australia New Zealand, he connects research with real-world impact—helping shape cities that are not only technologically advanced but also socially responsible and inclusive.

Profiles: Google Scholar | LinkedIn

Featured Publications 

Shayan, S., & Kim, K. P. (2025). Social responses and change management strategies in smart city transitions: A socio-demographic perspective. Smart Cities, 8(6), 188. https://doi.org/10.3390/smartcities8060188

Shayan, S., & Kim, K. P. (2023). Understanding correlations between social risks and sociodemographic factors in smart city development. Sustainable Cities and Society, 89, 104320. https://doi.org/10.1016/j.scs.2022.104320

Shayan, S., & Kim, K. P. (2022). A conceptual framework to manage social risks for smart city development programs. In Resilient and responsible smart cities (pp. 77–86). Springer, Cham. https://doi.org/10.1007/978-3-030-98423-6_6

Shayan, S., Kim, K. P., Ma, T., & Nguyen, T. H. D. (2020). The first two decades of smart city research from a risk perspective. Sustainability, 12(21), 9280. https://doi.org/10.3390/su12219280

Shayan, S., & Kim, K. P., & Tam, V. (2019). Critical success factor analysis for effective risk management at the execution stage of a construction project. International Journal of Construction Management, 22(3), 379–386. https://doi.org/10.1080/15623599.2019.1624678

Surendiran Mohan | Material Science | Excellence in Research

Published on by Scientist Day

Dr. Surendiran Mohan | Material Science | Excellence in Research

Dr. Surendiran Mohan | Vinayaka Mission’s Research Foundation | India

Dr. M. Surendiran is a distinguished academic and researcher specializing in nanobiomaterials, analytical chemistry, materials science, corrosion science, and sustainable materials. His research primarily focuses on the development of bio-ceramic and polymer coatings for biomedical and anticorrosive applications, as well as multifunctional inhibitor systems and advanced composite materials for environmental and industrial use. With nearly a decade of professional experience, he has published 23 research papers that have garnered 456 citations across 436 documents, reflecting his growing influence in the scientific community. His h-index of 9 demonstrates the strong impact and consistency of his scholarly work. In addition to publishing high-impact research with a cumulative impact factor of nearly 100, he has contributed book chapters, filed and published patents, and secured several funded research projects. He has received numerous awards for his academic excellence and research leadership and has guided postgraduate and doctoral scholars in cutting-edge materials research. Actively engaged in institutional quality assurance, accreditation, and research development, he also collaborates internationally with leading scientists from Malaysia, Saudi Arabia, South Africa, China, and India, advancing interdisciplinary innovations in sustainable and biomedical materials.

Profiles: ScopusGoogle Scholar

Featured Publications

Surendiran, M., Indira, K. M. A., & Al-Humaid, L. A. (2025). Understanding the effective breakdown of PAHs in water through the use of g–C₃N₄–Ag–Cu–Ni nanocomposites. Chemosphere.

Surendiran, M., Srinivasan, S. G., Manickam, A., Sivakumar, S., & Jeevadharani, P. (2025). A comprehensive review: Surface modification strategies to enhance corrosion resistance of zirconia-based biomaterials in implant applications. Journal of Materials Science: Materials in Engineering, 20(76).

Surendiran, M., Kartik, R., & Muthusamy, S. (2025). Chemical modifications of chitin and chitosan fibers and filaments: A review. Macromolecular Chemistry and Physics, 2400422, 1–16.

Surendiran, M., Gopi Srinivasan, P. A., & Mohan, S. (2025). Versatile application of calixarenes and their derivatives: From drug delivery to industrial catalysis and environmental remediation. Critical Reviews in Analytical Chemistry.

Surendiran, M., Indira, K., Chozhanathmisra, M., & Aloufi, A. S. (2025). Electrochemical and corrosion protection performance of Sr-HaP/PoPD coated LN stainless steel. Journal of the Taiwan Institute of Chemical Engineers, 166, 105447.

Hadiel Zamzam | Material Science | Best Researcher Award

Published on by Scientist Day

Dr. Hadiel Zamzam | Material Science | Best Researcher Award

Dr. Hadiel Zamzam | Suez University | Egypt

Dr. Hadiel Zamzam is a highly accomplished prosthodontist with a German educational foundation and American postdoctoral research experience. She currently serves as a Lecturer in Fixed Prosthodontics at Suez University and Misr International University (MIU), and as a Researcher at Egypt’s National Research Center (NRC). A meticulous clinician and innovative academic, Dr. Zamzam’s expertise spans fixed prosthodontics, esthetic rehabilitation, CAD/CAM restorative materials, and dental biomechanics. Their studies have been cited by 14 scientific documents, reflecting a growing impact within the dental research community. With an h-index of 1, the researcher’s work demonstrates an emerging academic influence supported by collaborative projects and experimental investigations on occlusal veneer durability, resin cement bonding, and surface treatment optimization. The publications showcase a strong integration of biomechanical analysis and material science, contributing to advancements in evidence-based restorative dentistry and digital dental technology.

Profile: Scopus | Orcid

Featured Publications

Zamzam, H., Moussa, A., Zohdy, M., Morsi, T., Olivares, A., & Fok, A. (2025). Accelerated bruxism-simulating fatigue test of occlusal veneers. Journal of the Mechanical Behavior of Biomedical Materials, 157, 107243. https://doi.org/10.1016/j.jmbbm.2025.107243

Zamzam, H., Olivares, A., & Fok, A. (2021). Load capacity of occlusal veneers of different restorative CAD/CAM materials under lateral static loading. Journal of the Mechanical Behavior of Biomedical Materials, 115, 104290. https://doi.org/10.1016/j.jmbbm.2020.104290