Monika Gęb­­ara | Magnetic Macrocomposites | Innovative Research Award

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Monika Gęb­­ara | Magnetic Macrocomposites | Innovative Research Award

Mrs. Monika Gęb­­ara at Czestochowa University of Technology | Poland

Monika Gęb­­ara is a researcher at Częstochowa University of Technology in Poland, focusing on condensed matter physics and materials science. Her research explores the magnetic properties of advanced materials, with a particular emphasis on understanding magnetization behavior under external influences such as DC-bias. Through her work, she applies theoretical models, including the T(x) model, to describe and predict magnetic response in complex systems, contributing to both fundamental insights and potential applications in electronics and magnetic devices. Gęb­­ara has authored six peer-reviewed publications, which have collectively received 12 citations, reflecting the growing recognition of her work within the scientific community. She collaborates with multiple co-authors across interdisciplinary topics, indicating a strong engagement with international research networks. Her recent studies investigate how external electrical or magnetic fields influence material properties, aiming to optimize performance in functional materials and devices. By combining experimental investigation with theoretical modeling, her research provides a deeper understanding of structure–property relationships in magnetic systems. Although early in her career, Gęb­­ara’s contributions show promise for advancing material characterization techniques and for developing novel materials with tunable magnetic properties, laying the groundwork for applications in sensors, spintronics, and energy-efficient electronic components.

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Weihua Tang | Material Science | Distinguished Scientist Award

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Weihua Tang | Material Science | Distinguished Scientist Award

Prof. Dr. Weihua Tang at Xiamen University | China

Weihua Tang is a prominent researcher in advanced functional materials and device engineering, specializing in organic and perovskite solar cells, energy storage systems, and nanostructured composites. His research has received 16,175 citations (8,023 since 2021), with an h-index of 68 (49 since 2021) and 225 i10-index publications (147 since 2021), reflecting his strong global influence. Tang’s work on ternary organic solar cells, non-fullerene acceptors, and perovskite tandem architectures has significantly advanced device efficiency, interface control, and long-term stability. He has also contributed to dopant-free hole-transport materials and narrow-bandgap conjugated polymers, supporting scalable next-generation photovoltaics. Beyond solar cells, his research includes graphene- and bacterial-cellulose-based nanocomposites for high-performance supercapacitors and surface-engineered quantum dots for sensing and biomedical applications. A consistent theme across his work is the optimization of morphology, interfacial chemistry, and charge transport to enhance structure–property–performance relationships. His publications in leading journals such as Nature and Energy & Environmental Science continue to influence sustainable energy research worldwide.

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Ahmed Hashem | Design of Materials and Components | Outstanding Scientist Award

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Ahmed Hashem | Design of Materials and Components | Outstanding Scientist Award

Prof. Ahmed Hashem at National Research Centre (NRC) | Egypt

Ahmed M. Hashem is a Professor of Inorganic Chemistry at the National Research Center, Cairo, Egypt, specializing in the development of advanced materials for energy storage applications. His research focuses on lithium-ion batteries, exploring both anode and cathode materials, including Co-free Ni-rich layered oxides, ilmenite, and molybdenum disulfide nanoparticles. He has extensively investigated the electrochemical behavior, structural properties, and enhanced capacity mechanisms of transition metal oxide electrodes. Hashem also works on green synthesis approaches for metal and metal oxide nanoparticles and their composites, targeting high-performance supercapacitors and sustainable energy storage solutions. His studies integrate material modification, doping strategies, and nanostructuring to improve energy density, stability, and environmental compatibility. Overall, his work bridges fundamental inorganic chemistry and applied electrochemical energy research, contributing significantly to next-generation battery technologies.

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Integrated Lithium-Rich Layered Cathode Nanomaterials for High-Performance Lithium-Ion Batteries

International Journal of Molecular Sciences, Vol. 26(3), Article 1346, 2025

Wei Tao Huang | Metal Nanocomposites | Editorial Board Member

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Wei Tao Huang | Metal Nanocomposites | Editorial Board Member

Assoc. Prof. Dr. Wei Tao Huang at hunan normal universiy | China

Wei Tao Huang is a highly accomplished researcher in biosensing, molecular logic, DNA computing, nanomaterials, and biointerface engineering, with impactful contributions spanning analytical chemistry, biomedical engineering, and molecular information processing. His work is widely recognized, with more than 1,600 citations, an h-index of 23, and influential publications across high-impact journals such as Chemical Communications, Theranostics, Analytical Chemistry, and Biosensors & Bioelectronics. Huang’s research focuses on designing innovative fluorescent and electrochemical sensing platforms leveraging graphene oxide, DNA structures, aptamers, and nanocomposites for highly sensitive detection of metal ions, biomolecules, and environmental contaminants. He has pioneered several dual-output DNA logic gates, reversible fluorescent nanoswitches, and molecular computation systems, advancing intelligent biosensing and information encryption at the molecular scale. His contributions also extend to biomedical applications, including engineering E. coli Nissle 1917 minicells for targeted chemotherapy delivery and developing biosensing methods for imaging hypoxia in inflammatory diseases. Huang’s interdisciplinary work combines chemistry, nanotechnology, synthetic biology, and materials science to enable next-generation sensing strategies, molecular logic circuits, and functional biointerfaces. His research continues to drive forward innovations in smart biosensing systems, pathogen detection, environmental monitoring, and molecular information storage.

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Ghazanfar Mehboob | Material Science | Excellence in Design Award

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Ghazanfar Mehboob | Material Science | Excellence in Design Award

Dr. Ghazanfar Mehboob at Guangzhou University | China

Dr. Ghazanfar Mehboob (Ph.D.) is a highly accomplished materials scientist specializing in thermal barrier coatings (TBCs), environmental barrier coatings (EBCs), plasma spraying, computational coating design, and advanced functional materials. He is currently a Postdoctoral Researcher at Guangzhou University, China, where he focuses on unraveling failure mechanisms in TBCs and developing optimized structural morphologies to extend coating lifespan through integrated experimental and numerical simulations. Dr. Mehboob completed his Ph.D. in Materials Science and Engineering at Xi’an Jiaotong University (2023), where he conducted pioneering research on strain-tolerant coating architectures, crack propagation behavior, multilayer thermal barrier systems, and substrate–coating interactions. His expertise spans Abaqus, FEM, VCCT, residual stress modeling, nanoparticle synthesis, thin films, multiferroics, solar cells, and advanced nanomaterials. He has produced a strong research output with 16 international publications, including 7 as first and corresponding author, and has accumulated 295 citations, reported across 282 citing documents, with an h-index of 8. His impactful contributions include advancements in WC-CoCr adhesion behavior, double-layer TBC design optimization, coating failure analysis, and temperature-dependent magnetic properties of spinel nanoparticles. Dr. Mehboob has been awarded the prestigious Guangzhou University Start-Up Research Fund (2025) for exploring new materials and long-lifespan coating strategies. Alongside his research achievements, he has served as a Lecturer and held leadership roles such as President of the Career Counseling Society, demonstrating strong academic, organizational, and mentoring capabilities. His work continues to advance high-performance coating technologies and functional materials for extreme-environment and energy-related engineering applications.

Profile:  Scopus | GoogleScholar
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Cui Xinjie | Properties and Performance | Research Excellence Award

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Cui Xinjie | Properties and Performance | Research Excellence Award

Dr. Cui Xinjie at Northeast Forestry University | China

Dr. Cui Xinjie is a researcher and educator specializing in wood science, with a strong academic background and extensive hands-on experience in wood anatomy, wood identification, wood modification, and archaeological wood preservation. She received her Ph.D. in Wood Science from Kyushu University, Japan, where her doctoral work focused on the natural weathering behavior and weatherproof treatment strategies for Cunninghamia lanceolata, producing influential SCI-indexed publications in Forests. She previously earned her M.Sc. in Wood Science and Technology from Southwest Forestry University, where she conducted pioneering research on species identification and decay classification of wooden remains from the Haimenkou archaeological site. Notably, the four-level decay grading standard she developed has been widely adopted by scholars working on archaeological wood. Dr. Cui has demonstrated exceptional technical proficiency in wood anatomy, completing the identification of 96 wood samples during her master’s studies and preparing over 3,000 permanent microscopic sections for archaeological research, facilitating high-quality analyses of ancient wooden artifacts. Since joining Beihua University, she has served as Secretary for Discipline and Scientific Research and currently leads the Wood Science and Engineering Program while supervising graduate students. She teaches core courses such as Wood Science, Scientific Paper Writing, and Wood Physics and Chemistry, contributing significantly to curriculum development and pedagogical innovation. Her academic contributions also include co-authoring chapters in a major volume on conservation technologies for wooden cultural relics from the Haimenkou site and presenting her research at international and national conferences in China, Japan, and beyond. Dr. Cui has led multiple teaching reform projects at Beihua University and has been recognized with honors such as the National Scholarship and Outstanding Thesis Awards. Her work bridges fundamental wood science, material behavior, and cultural heritage preservation, positioning her as a rising expert committed to advancing sustainable wood research and education.

Profile:  Scopus  
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Piotr Jasinski | Electroceramics | Best Review Paper Award

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Piotr Jasinski | Electroceramics | Best Review Paper Award

Prof. Piotr Jasinski at Gdańsk University of Technology | Poland

Prof. Piotr Jasinski is a leading figure in engineering sciences, recognized for his extensive contributions to electroceramics, electronic technology and metrology. His academic journey at Gdańsk University of Technology spans more than three decades, progressing from teaching assistant to full professor in the Faculty of Electronics, Telecommunication and Informatics. With a Ph.D. in electronic engineering (2000) and habilitation in electronic materials and devices (2009), he was awarded the nomination for professor of engineering and technical sciences in 2019. His research centers on the electrical characterization of electroceramic materials—particularly through impedance spectroscopy—and on developing thin- and thick-film technologies for advanced devices such as solid oxide fuel cells, electrolyzers, gas sensors and ceramic capacitors. These efforts support critical areas of sustainable energy, environmental monitoring and functional material innovation. Prof. Jasinski’s scientific influence is reflected in his strong publication record of over 170 papers, more than 3,000 citations (Scopus, excluding self-citations) and an h-index of 26, along with mentoring six Ph.D. graduates. Beyond research, he plays key leadership roles in national and international scientific communities, having served as president, vice-president and president-elect of the Polish section of IMAPS; vice-president of the Polish Society for Sensors Technology; and vice-president of the Polish Hydrogen and Fuel Cell Association. He has contributed to the Committee on Metrology and Scientific Instrumentation of the Polish Academy of Sciences and serves on editorial boards such as Metrology and Measurement Systems and Sensors (MDPI). At Gdańsk University of Technology, he has headed the Laboratory of Functional Materials, leads the Department of Functional Materials Engineering and coordinates the Advanced Materials Center. His career highlights a sustained commitment to advancing functional materials, sensor technologies and high-impact engineering research.

Profile:  Scopus | Orcid | Scopus
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Aggeliki Papavasiliou | Environmental Applications | Best Researcher Award

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Aggeliki Papavasiliou | Environmental Applications | Best Researcher Award

Dr. Aggeliki Papavasiliou at National Centre For Scientific Research Demokritos | Greece

Dr. Aggeliki A. Papavasiliou is a materials scientist whose work spans catalytic materials, nanostructured coatings, environmental applications, and advanced automotive after-treatment technologies. She holds a Diploma in Mineral Resources Engineering from the Technical University of Crete, an MBA in Engineering–Economic Systems from the National Technical University of Athens (NTUA) and the University of Piraeus, and a PhD in Materials Science and Technology from NTUA, where her doctoral research centered on the chemical and thermal stability of electropositively promoted Pt-based catalytic converters. Over two decades, she has contributed extensively as a Scientific Researcher at the Institute of Nanoscience & Nanomaterials, NCSR “Demokritos,” and at NTUA’s Laboratory of Physical Metallurgy, participating in major EU-funded programs including HORIZON, H2020, KRIPIS, FP7, and PENED. Her work has advanced the development of sustainable antimicrobial and antiviral nanocoatings, bifunctional zeolite-based catalysts for methane conversion, hybrid TWV/GPF systems for automotive emissions, carbon–polymer nanocomposites for marine engineering, flame-spray pyrolysis nano-oxides, and next-generation cost-efficient automotive catalysts. A specialist in catalytic behavior, durability optimization, thermal aging resistance, surface modification, and nanostructured materials processing, she combines experimental methodology with applied industrial research across environmental, energy, health, and transportation sectors. Her early work on processing 3D ground-penetrating radar data using neural networks reflects a longstanding focus on technologically integrated material solutions. She has presented at numerous international scientific meetings, supported teaching in ceramic and refractory materials, and completed advanced seminars in technology management and environmental impact assessment. Her contributions have been recognized with multiple prestigious Thomaidio Awards for scientific excellence, best PhD thesis, and influential publications, as well as the ENMIX Paper Award. Through her multidisciplinary expertise, Dr. Papavasiliou continues to advance innovative materials and catalytic technologies with strong industrial and societal impact.

Profile:  Scopus 
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Ghodratollah Roudini | Metal Matrix Composites | Editorial Board Member

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Ghodratollah Roudini | Metal Matrix Composites | Editorial Board Member

Dr. Ghodratollah Roudini at University of Sistan & Baluchestan | Iran

Dr. Ghodratollah Roudini is an accomplished Iranian materials engineer and Associate Professor at the University of Sistan and Baluchestan, where he has served since 2007 and played influential leadership roles, including Vice President for Planning and Development and Head of the Materials Engineering Department. Born on 23 September 1962 in Zabol, Iran, he holds a Ph.D. in Materials Engineering from the Laboratory for Mechanical Metallurgy (LMM) at EPFL, Switzerland, along with Master’s and Bachelor’s degrees in Materials Engineering from Tehran University and Shiraz University. His research expertise spans metal matrix composites, nanocomposites, phase-change materials, thermal energy storage systems, metal forming, and advanced materials design. Dr. Roudini has led and supervised extensive graduate and undergraduate research, contributing significantly to the development of innovative materials with tailored mechanical, thermal, and structural properties. His scholarly contributions include impactful publications on composite behavior, wear mechanisms, interpenetrating-phase structures, hydrophobic nanocomposites for oil–water separation, dislocation modeling, thermal energy storage nanomaterials, and advanced coating technologies. His recent works explore the mechanical and tribological performance of hybrid aluminum–ceramic composites, the design of polyurethane–magnetite–titanium dioxide nanocomposites, and the engineering of SiO2- and graphene-based thermal storage materials, reflecting his broad scientific vision and interdisciplinary approach. With deep experience in teaching advanced materials, metal forming, powder metallurgy, composites, nanocomposites, and dislocation theory, he has shaped the academic growth of many students. His career also includes earlier roles as lecturer and teaching assistant, marking more than three decades of continuous academic engagement. Highly respected for his scientific rigor and commitment to practical materials innovation, Dr. Roudini continues to contribute to engineering research that advances industrial, energy, and environmental applications.

Profile:  Scopus
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Taame Abraha Berhe | Materials Science | Best Researcher Award

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Taame Abraha Berhe | Materials Science | Best Researcher Award

Assist Prof. Dr. Taame Abraha Berhe at Adigrat university | Ethiopia

Dr. Taame Abraha Berhe is a distinguished researcher and academic specializing in applied and theoretical chemistry, with a strong focus on quantum chemistry, materials and energy chemistry, and materials science and engineering. He serves as an Assistant Professor at Adigrat University, Ethiopia, where he has been actively engaged in teaching and research since 2017. Currently, he is a Postdoctoral Researcher at National Taiwan University, where his work extends into advanced material characterization and surface modification technologies. Dr. Berhe earned his Ph.D. from the National Taiwan University of Science and Technology, where he also gained hands-on experience in synchrotron radiation research at the Taiwan and Japanese Photonic Sources, enriching his expertise in advanced experimental and computational methods. His research contributions aim to bridge fundamental chemistry with applied material innovations for sustainable energy and technological advancement. Over the years, he has held several academic leadership positions, including Head of the Department of Chemistry and Dean of the College of Natural and Computational Science at Adigrat University, reflecting his commitment to scientific education and institutional development. Dr. Berhe’s scholarly influence extends internationally through his service as a reviewer for multiple reputable journals, including Advances in Science, Technology and Engineering Systems Journal, Materials Science Research India, and Journal of Food Composition and Analysis. His dedication to quality research and peer review has been recognized with multiple awards, such as the Certificate of Excellence in Reviewing from Current Journal of Applied Science and Technology and commendations from RSC Advances and other scientific publishers. Dr. Berhe’s research vision emphasizes the integration of physical chemistry principles and material science to drive innovation in energy systems, catalysis, and sustainable materials for global scientific and industrial progress.

Profile:  GoogleScholar

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