Xiaolu Yuan | Material Science | Research Excellence Award

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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.

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Eleni Efthimiadou | Material Science | Best Researcher Award

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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.

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Noboru Konda | Material Science | Best Researcher Award

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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.

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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.

Yuxuan Zhu | Chemical Engineering | Best Researcher Award

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Mr. Yuxuan Zhu | Chemical Engineering | Best Researcher Award

Mr. Yuxuan Zhu | The Institute of Seawater Desalination and Multipurpose Utilization | China

Zhu Yuxuan is a dedicated early-career researcher specializing in electrocatalytic membrane water treatment, nano-carbon membrane engineering, and advanced materials for environmental purification. Currently a PhD candidate in Materials Chemistry at Tiangong University, a Double First-Class institution, she has built strong interdisciplinary expertise through studies spanning electrocatalysis, membrane science, wastewater treatment, and chemical engineering principles. She previously earned her master’s and bachelor’s degrees in Materials Science and Engineering from Shandong Jianzhu University, where she developed foundational skills in materials characterization, nanomaterials, and electrochemical functional materials. Zhu has made significant scholarly contributions with 9 research publications, achieving measurable academic impact with 38 citations from 26 citing documents and an h-index of 4. Many of her works are published as first author in high-ranking JCR Q1 TOP journals such as Chemical Engineering Journal, Separation and Purification Technology, and Journal of Environmental Chemical Engineering. Her research focuses on developing nano-conductive carbon membranes, transition-metal-sulfide composite electrodes, and electrocatalytically enhanced membrane separation systems for industrial wastewater treatment. She has also contributed to major national scientific initiatives, including the National Key R&D Program and the Jiangxi Provincial Key R&D Program, where she played central roles in method development, team coordination, and project reporting. Her innovation capacity is reflected in five authorized patents, spanning porous carbon composite materials, electrode technologies, and laboratory device designs. She has earned multiple honors, including the Excellent Report Award at the Beijing-Tianjin-Hebei Membrane Forum, university scholarships, and several provincial awards in innovation competitions. Technically, Zhu is proficient in SEM, Raman, IR, LC-MS, UV-Vis, electrochemistry, molecular dynamics, and MS simulation. As a student leader—serving as Chairman of the Student Union—she has demonstrated strong organizational and communication skills.

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Featured Publications

Zhu, Y., Wu, Y., Zhao, H., Wang, H., Lei, H., & Zhong, Y. (2026). Mediation of superoxide radicals enhances the efficient degradation of dimethylacetamide in continuous flow-through three-dimensional electrochemical membrane reactor. Separation and Purification Technology, 506, 135619. https://doi.org/10.1016/j.seppur.2025.135619

Wang, Y., Chen, Z., Zhu, Y., Wang, H., Cui, Z., Li, X., Mo, J., & Li, J. (2025). An ultrathin Al2O3 ceramic membrane prepared by organic-inorganic blending with solvent evaporation and high-temperature sintering for highly efficient oil/water separation. Journal of Water Process Engineering, 107116. https://doi.org/10.1016/j.jwpe.2025.107116

Wang, Y., Zhu, Y., Wang, H., Chen, Z., He, B., & Li, J. (2025). Conductive carbon/Al2O3 mixed-matrix membrane cathode for efficient electrocatalytic production of H2O2. Separation and Purification Technology, 134120. https://doi.org/10.1016/j.seppur.2025.134120

Zhu, Y., Chen, Z., Wang, H., Ma, A., & Li, J. (2025). Continuous flow-through electro-Fenton membrane reactor with Fe−N4-doped carbon membrane as cathode for efficient removal of dimethylacetamide. Separation and Purification Technology, 354, 129290. https://doi.org/10.1016/j.seppur.2024.129290

Chen, Z., Wang, H., Zhu, Y., Chen, X., Gui, S., Ma, A., & Li, J. (2025). Electrochemical reactor with carbon membrane electrodes for efficient phenol removal via anode and cathode synergism. npj Clean Water, 8, Article 43. https://doi.org/10.1038/s41545-024-00432-4

Zhu, Y., Feng, Y., Wang, H., & Li, J. (2025). Fabrication of nitrogen-doped conductive carbon membranes both as anode for degradation of phenol and as cathode for electro-synthesis of hydrogen peroxide in flow-through electrochemical membrane reactor. Separation and Purification Technology, 359, 130586. https://doi.org/10.1016/j.seppur.2024.130586

Hadiel Zamzam | Material Science | Best Researcher Award

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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.

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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

 

siguo xiao | Material Science | Best Researcher Award

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Prof. siguo xiao | Material Science | Best Researcher Award

Prof. siguo xiao | Xiangtan University | China

Dr. Siguo Xiao is a distinguished Professor and Doctoral Supervisor specializing in optoelectronic technology and semiconductor physics. He teaches core courses such as Optoelectronic Technology and Semiconductor Physics, fostering innovation and practical expertise among graduate and doctoral students. His research focuses on solid-state luminescence, luminescent materials, and advanced optoelectronic applications, with interests spanning nanomaterials, optical glass and ceramics, and semiconductor optoelectronic technologies. Over his prolific career, Prof. Xiao has led or participated in more than ten major research projects, including the National Program, the National Natural Science Foundation of China (NSFC), and key initiatives supported by the Hunan Provincial Department of Science and Technology and the Department of Education. His project leadership includes notable NSFC-funded studies on semiconductor oxide/rare earth fluoride micro-nano composites and broadband quantum cutting luminescent materials Prof. Xiao has made significant scholarly contributions, authoring over 80 SCI/EI-indexed papers in high-impact journals such as Physical Review Letters, Optics Letters, Journal of Applied Physics, and RSC Advances. His research has achieved an impressive academic footprint, with 1,578 citations from 1,412 documents, 110 total publications, and an h-index of 23 — underscoring both the depth and influence of his scientific output. He is also an accomplished inventor with over ten national invention patents, including A Blue Up-Conversion Luminescent Material and Its Preparation Method and A Silicate Yellow Long-Lasting Phosphor and Its Preparation Method. Four of his patented technologies have been successfully transferred for industrial application, highlighting his commitment to translational research and technology commercialization. In recognition of his outstanding scientific achievements, Prof. Xiao received the Third Prize of the Hunan Provincial Science and Technology Progress Award. His mentorship has guided graduate students to notable accolades, including one Provincial Excellent Graduate Thesis and two Xiangtan University President’s Awards.

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Featured Publications

Li⁺ and B³⁺ Co-Doping Induced Near-Infrared Emission Enhancement of Ga₁.₆Sc₀.₄O₃:Cr³⁺. (2025). ECS Journal of Solid State Science and Technology.

Long-Wavelength Broadband Near-Infrared ZrTe₃O₈:Cr³⁺, Ti⁴⁺ Phosphor of High Luminescence Quantum Yield and Excellent Thermal Stability. (2025). ACS Applied Optical Materials.

Luminescence Improvement via Site Environment Adjustment and Site Occupancy Regulation of Eu²⁺ in Ca₈MgSi₄O₁₆Cl₂. (2025). Optical Materials.

Pure Near-Infrared Up-Conversion Emission of Tm³⁺ Sensitized by Ni²⁺ in MgGa₂O₄. (2024). Journal of Physical Chemistry C.

Broadband Near-Infrared Emission in Cr³⁺, Yb³⁺, Li⁺ Tri-Doped In₂TeO₆. (2024). Materials Research Bulletin.