Xiang Wu | Medical Biomaterials | Research Excellence Award

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Dr. Xiang Wu | Medical Biomaterials | Research Excellence Award

Ningbo University | China

Dr. Xiang Wu is a dedicated medical researcher and clinician currently serving at Ningbo Medical Center Li Huili Hospital, Health Science Center, Ningbo University, where he actively contributes to interdisciplinary biomedical research. With a strong academic foundation in medical sciences and biomaterials, his education and professional training have enabled him to bridge clinical needs with engineering-driven solutions. His experience spans hospital-based research and university-level scientific collaboration, focusing on translating laboratory innovations into practical medical applications. Dr. Wu’s primary research interests include functional hydrogels for tissue adhesion, hemostasis, postoperative repair, and advanced biomaterials such as bone and joint materials, adhesive systems, and Janus patches. In parallel, he investigates molecular regulatory mechanisms involving lncRNA and circRNA in cancers, particularly pancreatic and bladder cancer, highlighting his integrative approach that combines materials science with molecular medicine. Since 2020, his scholarly contributions have gained notable academic recognition, reflected in a strong citation record and h-index, underscoring the impact of his research on addressing clinical treatment challenges. His work aligns closely with modern translational medicine, emphasizing innovation, clinical relevance, and interdisciplinary collaboration. In conclusion, Dr. Wu represents a new generation of clinician-scientists whose research advances both biomedical materials and molecular oncology, contributing meaningfully to improved therapeutic strategies and future medical technologies.

Profiles: Orcid | Google Scholar

Featured Publications

 

Mawia Osman | Quantum Chemistry | Research Excellence Award

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Dr. Mawia Osman | Quantum Chemistry | Research Excellence Award

China West Normal University, China

Dr. Mawia Osman is a dedicated researcher in advanced mathematical sciences, recognized for her work at the intersection of fuzzy systems, nonlinear dynamics, and computational analysis. She built a strong academic foundation through a BSc in Science and Technology, followed by qualifying studies in mathematical sciences, an MSc in pure and applied sciences, and a PhD in Mathematics and Statistics from Northwest Normal University, China. Her doctoral journey was supported by the prestigious Chinese Government Scholarship (CSC), awarded for excellence and potential in research. Throughout her academic progression, she has developed expertise in fuzzy analysis, fuzzy differential and fractional differential equations, nonlinear partial differential equations, fuzzy integral equations, and numerical analysis. Her broader research interests also extend to fuzzy mathematical modeling, quantum calculus, fractal calculus, nonlinear analysis, and biomedical research, reflecting a multidisciplinary vision. Dr. Osman’s scholarly work contributes to solving complex real-world problems using advanced mathematical frameworks, positioning her as a promising researcher in modern applied mathematics. Her commitment to research, continuous learning, and innovative thinking defines her professional identity, and she remains focused on expanding the theoretical and practical applications of fuzzy and nonlinear systems in scientific and technological advancements.

Profiles: Orcid | Google Scholar

Featured Publications

Shah, S.O., Tikare, S., & Osman, M. (2023). Ulam Type Stability Results of Nonlinear Impulsive Volterra–Fredholm Integro-Dynamic Adjoint Equations on Time Scale. Mathematics, 11(21).

Ali, U., & Osman, M. (2023). On Consequences of Carreau Nanofluid Model with Dufour–Soret Effects and Activation Energy Subject to New Mass Flux Condition: A Numerical Study. Mathematics, 11(11).

Osman, M., Xia, Y., Omer, O.A., & Hamoud, A. (2022). On the Fuzzy Solution of Linear–Nonlinear Partial Differential Equations. Mathematics, 10(13).

Omer, O.A., Saibi, K., Abidin, M.Z., & Osman, M. (2022). Parametric Marcinkiewicz Integral and Its Higher-Order Commutators on Variable Exponents Morrey–Herz Spaces. Journal of Function Spaces, Article 7209977.

Osman, M., Almahi, A., Omer, O.A., Mustafa, A.M., & Altaie, S.A. (2022). Approximation Solution for Fuzzy Fractional-Order Partial Differential Equations. Fractal and Fractional, 6(11).

Osman, M., Xia, Y., Marwan, M., & Omer, O.A. (2022). Novel Approaches for Solving Fuzzy Fractional Partial Differential Equations. Fractal and Fractional, 6(11).

Osman, M., Gong, Z., Mustafa, A.M., & Yang, H. (2021). Solving Fuzzy (1+n)-Dimensional Burgers’ Equation. Advances in Difference Equations, Article 3376.

Opeyemi Akanbi | Electroanalytical Methods | Research Excellence Award

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Mr. Opeyemi Akanbi | Electroanalytical Methods | Research Excellence Award

 University of Massachusetts Lowell | United States

Mr. Opeyemi Akanbi is a dedicated PhD Candidate in Physics and Applied Physics at the University of Massachusetts Lowell, where he focuses on advanced research at the intersection of materials science, transport phenomena, and functional textile engineering. With academic training that spans physics, materials science, and applied engineering, he has gained diverse experience working on optical strain sensors, humidity-control textiles, electrokinetic systems, and functional polymers. His current research centers on the design and optimization of low-power electroosmotic pumps and textile-integrated microfluidic platforms aimed at improving moisture and sweat management in wearable technologies. Combining experimental device fabrication with multiphysics modeling of ion transport, fluid flow, and heat transfer, he advances innovative solutions for smart garments, personal comfort enhancement, and healthcare monitoring applications. His work reflects strong interests in electroosmotic flow, soft-material transport behavior, photonics, and the integration of microfluidic architectures into flexible substrates. As an active member of leading scientific communities such as ACS, MRS, and IEEE, he consistently engages in interdisciplinary research and academic collaboration. He has contributed to impactful research outputs and received recognition for innovation in functional textile development. He aims to continue developing science-driven technologies that bridge physics, materials engineering, and wearable device innovation.

Profiles: Orcid | Google Scholar

Featured Publications

Hutchins, A., Acharya, S., Akanbi, O., Doan, K., Pinninti, P., Isherwood, K., Rosenberg, Z., Filocamo, S., Zhang, Y., & Guo, W. (2025). “Low Power Textile Integrated Electroosmosis Pump for Active Moisture and Sweat Management.” iScience.

Akanbi, O.S., Shannon, J.P., Delhommelle, J., & Desgranges, C. (2025). “Synergizing Driven Quantum Dynamics, AI, and Quantum Computing for Next-Gen Materials Science.” The Journal of Physical Chemistry Letters.

Hutchins, A., Reens, D., Kharas, D., West, G.N., Sorace-Agaskar, C., Chiaverini, J., McConnell, R., Swint, R., Akanbi, O., Harding, S., et al. (2024). “Fiber-to-Chip Packaging With Robust Fiber Fusion Splicing for Low-Temperature Applications.” IEEE Photonics Technology Letters.

Balogun, S.W., Oyeshola, H.O., Ajani, A.S., James, O.O., Awodele, M.K., Adewumi, H.K., Àlàgbé, G.A., Olabisi, O., Akanbi, O.S., Ojeniyi, F.A., et al. (2024). “Synthesis, characterization, and optoelectronic properties of zinc oxide nanoparticles: A precursor as electron transport layer.” Heliyon.

Akanbi, O.S., Usman, H.A., Abass, G.F., Oni, K.E., Ige, A.S., Odunaro, B.P., Ojo, I.J., Oladejo, J.A., Ajani, H.O., Musa, A., et al. (2023). “The Advent of Wide Bandgap Green-Synthesized Copper Zinc Tin Sulfide Nanoparticles for Applications in Optical and Electronic Devices.” Journal of Materials Science and Chemical Engineering.

Rimamnya, N.D., Akanbi, O.S., Bunmi, D.C., Abass, G.F., Olaniyan, J.A., Ige, A.S., Moyofoluwa, O.O., Kolawole, B.T., et al. (2023). “Evolution of Carbon Nanotubes, Their Methods, and Application as Reinforcements in Polymer Nanocomposites: A Review.” Journal of Advanced Mechanical Engineering Applications.

Akanbi, O., Abass, G., Ige, A., Nyatse, D., Oyeshola, H., Abba, H., Felix, O., Oni, K., Ayotunde, A., Ajao, J., et al. (2023). “Research Advances on 2D Mxenes for Photovoltaic Applications.” Journal of Advanced Mechanical Engineering Applications.

Santosh Chackrabarti | Thick Films | Research Excellence Award

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Dr. Santosh Chackrabarti | Thick Films | Research Excellence Award

Jamia Millia Islamia | India

Dr. Santosh Chackrabarti is a dedicated researcher in nanophotonics and materials science, recognized for his contributions to semiconductor lasers, nanostructured thin films, and advanced 2D and metal oxide materials. With a strong academic foundation including a Ph.D. in Material Science and Lasers, an M.Sc. in Physics, and a B.Sc. in Physics, he has developed expertise across optical, electrical, and structural characterization techniques such as SEM, XRD, FTIR, UV-Vis, and photoluminescence analysis. His professional journey spans impactful roles as a freelance researcher, research associate, guest lecturer, and physics educator at undergraduate and postgraduate levels, demonstrating proficiency in both scientific innovation and academic instruction. He has authored more than seventeen peer-reviewed journal publications, review articles, and book chapters, along with presenting at international conferences. His research interests include semiconductor thin films, nanostructured oxides, optoelectronic materials, quantum wells, and laser-material interactions, with additional involvement in photocatalytic nanomaterials for energy and environmental applications. His work on metal oxide nanocomposites has been supported by competitive research grants, reflecting recognition of his scientific capabilities. Dr. Chackrabarti continues to advance interdisciplinary research while inspiring emerging scholars through mentorship and high-quality teaching.

Profile: Scopus

Featured Publications

An in-depth Analysis of the Physical Characteristics of TiO2–CuO Films Fabricated via Spray Pyrolysis

Journal: Semiconductors

Year: 2024

Jean-Manuel Raimundo | Materials Science | Best Researcher Award

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Prof. Dr. Jean-Manuel Raimundo | Materials Science | Best Researcher Award

Aix Marseille Univ, CINaM | France

Prof. Dr. Jean-Manuel Raimundo is an accomplished scientist in organic chemistry and nanoscience, recognized for his contributions to molecular materials, functional chromophores, and advanced nanostructured systems. He holds a Bachelor’s degree in Biochemistry, a Master’s degree in Chemistry, a PhD in Organic Chemistry, and a Habilitation à Diriger des Recherches, establishing a strong academic foundation for his multidisciplinary research. His professional journey includes roles as temporary lecturer, assistant professor, associate professor, professor, and full professor at leading French universities, along with postdoctoral research at globally renowned institutions such as ETH Zurich and Total Elf Fina. He also completed international research assignments and served as an invited professor in Japan, contributing to collaborative advancements in molecular engineering and nanoscience. His research spans organic materials, photoactive systems, molecular electronics, supramolecular chemistry, and functional nanomaterials, with sustained involvement in major research laboratories including CINaM and UMR units. Prof. Raimundo has been honored with multiple distinctions, including innovation prizes, scientific excellence bonuses, and competitive fellowships supporting high-level research. His career reflects a dedication to advancing molecular materials and nanoscience through innovative research, international collaboration, and impactful scientific leadership.

Profiles: Scopus | Google Scholar

Featured Publications

Raimundo, J.-M., Blanchard, P., Gallego-Planas, N., Mercier, N., Ledoux-Rak, I., Hierle, R., & Roncali, J. (2002). “Design and synthesis of push−pull chromophores for second-order nonlinear optics derived from rigidified thiophene-based π-conjugating spacers.” The Journal of Organic Chemistry.

Raimundo, J.-M., Blanchard, P., Frere, P., Mercier, N., Ledoux-Rak, I., Hierle, R., & Roncali, J. (2001). “Push–pull chromophores based on 2,2′-bi(3,4-ethylenedioxythiophene) (BEDOT) π-conjugating spacer.” Tetrahedron Letters.

Malytskyi, V., Simon, J.-J., Patrone, L., & Raimundo, J.-M. (2015). “Thiophene-based push–pull chromophores for small molecule organic solar cells (SMOSCs).” RSC Advances.

Liu, S.-G., Shu, L., Rivera, J., Liu, H., Raimundo, J.-M., Roncali, J., Gorgues, A., & Echegoyen, L. (1999). “A New Dyad Based on C60 and a Conjugated Dimethylaniline-Substituted Dithienylethylene Donor.” The Journal of Organic Chemistry.

Videlot, C., Ackermann, J., Blanchard, P., Raimundo, J.-M., Frère, P., Allain, M., de Bettignies, R., Levillain, E., & Roncali, J. (2003). “Field‐Effect Transistors Based on Oligothienylenevinylenes: From Solution π‐Dimers to High‐Mobility Organic Semiconductors.” Advanced Materials.

Raimundo, J.-M., Blanchard, P., Brisset, H., Akoudad, S., & Roncali, J. (2000). “Proquinoid acceptors as building blocks for the design of efficient π-conjugated fluorophores with high electron affinity.” Chemical Communications.

Edelmann, M. J., Raimundo, J.-M., Utesch, N. F., Diederich, F., Boudon, C., Gisselbrecht, J.-P., & Gross, M. (2002). “Dramatically enhanced fluorescence of heteroaromatic chromophores upon insertion as spacers into oligo(triacetylene)s.” Helvetica Chimica Acta.

Dr. Véronique Eparvier | Chemistry of Natural Product | Best Researcher Award

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Dr. Véronique Eparvier | Chemistry of Natural Product | Best Researcher Award

CNRS | France

Dr. Véronique Eparvier is a CNRS Research Director at the Institut de Chimie des Substances Naturelles (ICSN–CNRS) in France, where she leads the Functional Chemistry–Chemical Ecology team and serves as Deputy Coordinator of the Natural Substances–Medicinal Chemistry Department. She also established and manages the ICSN Symbiotic Microorganism Strain Library. She holds a PhD in Natural Products Chemistry and an Habilitation à Diriger des Recherches (HDR), along with Master’s degrees in Agro-resource Sciences and Anthropology. Her professional career spans over a decade of research at CNRS, including leading the “Chemodiversity of the Flora of French Guiana” program. Her research focuses on the interface of natural product chemistry, chemical ecology, and metabolomics, emphasizing interactions between microorganisms and plants or insects to identify bioactive metabolites of pharmacological and agrochemical interest and to elucidate their ecological roles. She applies integrative approaches combining analytical chemistry, metabolomic profiling, and ecological insights. Dr. Eparvier’s work has resulted in numerous publications, patents, conference presentations, and invited lectures. Her achievements have been recognized with awards such as the Air Liquide Trophy for Scientific Research. Through her research and outreach, she significantly advances knowledge in natural substances, chemical ecology, and interdisciplinary biotechnology.

Profiles: Scopus | Orcid

Featured Publications

Levasseur, M.; Santerre, C.; Segret, J.; Elie, N.; Genty, C.; Estevez, Y.; Amusant, N.; Houël, E.; Eparvier, V.; Touboul, D. (2023). “Composition of antifungal volatile organic compounds in Sextonia rubra fruit by molecular networks.” Comptes Rendus Chimie.

Hebra, T.; Eparvier, V.; Touboul, D. (2023). “Nitrogen Enriched Solid-State Cultivation for the Overproduction of Azaphilone Red Pigments by Penicillium sclerotiorum SNB-CN111.” Journal of Fungi.

Levasseur, M.; Hebra, T.; Elie, N.; Guérineau, V.; Touboul, D.; Eparvier, V. (2022). “Classification of Environmental Strains from Order to Genus Levels Using Lipid and Protein MALDI-ToF Fingerprintings and Chemotaxonomic Network Analysis.” Microorganisms.

Hebra, T.; Pollet, N.; Touboul, D.; Eparvier, V. (2022). “Combining OSMAC, metabolomic and genomic methods for the production and annotation of halogenated azaphilones and ilicicolins in termite symbiotic fungi.” Scientific Reports.

Hebra, T.; Pollet, N.; Touboul, D.; Eparvier, V. (2022). “Combining OSMAC, Metabolomic and Genomic Methods on Termite Symbiotic Fungi for the Production and Annotation of Halogenated Azaphilones and Ilicicolins.” Research Square, preprint.

Houël, E.; Ginouves, M.; Azas, N.; Bourreau, E.; Eparvier, V.; Hutter, S.; Knittel-Obrecht, A.; Jahn-Oyac, A.; Prévot, G.; Villa, P.; et al. (2022). “Treating leishmaniasis in Amazonia, part 2: Multi-target evaluation of widely used plants to understand medicinal practices.” Journal of Ethnopharmacology.

Sorres, J.; Hebra, T.; Elie, N.; Leman-Loubière, C.; Grayfer, T.; Grellier, P.; Touboul, D.; Stien, D.; Eparvier, V. (2022). “Antiparasitic Ovalicin Derivatives from Pseudallescheria boydii, a Mutualistic Fungus of French Guiana Termites.” Molecules.

Dr. M. Belen Garcia Bl | Recubrimientos Protectores | Best Researcher Award

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Dr. M. Belen Garcia Bl | Recubrimientos Protectores | Best Researcher Award

Fundación Cidetec | Spain

Dr. M. Belén García-Blanco is a distinguished researcher specializing in surface modification of materials through chemical and electrochemical processes, including anodizing, plasma electrolytic oxidation, electropolishing, and anaphoretic deposition. She earned her Ph.D. in Electrochemistry from the University of Barcelona, following a DEA from the same institution and a Bachelor’s degree in Chemical Sciences from the University of the Basque Country. She currently serves as Principal Investigator and Project Leader at Fundación CIDETEC, where she has contributed to over twenty national and European research projects. Her notable projects include coordinating and leading large-scale European initiatives focused on advanced surface treatments and eco-friendly coatings for conventional and additive-manufactured materials. Dr. García-Blanco has authored multiple articles in high-impact journals on surface treatments and additive manufacturing and has actively participated in international conferences presenting her work on anodizing, electropolishing, and sustainable coatings. She has also guided undergraduate and graduate research projects, mentoring students in electrodeposition and surface engineering, and delivered specialized seminars in surface engineering technologies. Fluent in Basque and English, she is recognized for her scientific leadership, interdisciplinary expertise, and commitment to advancing sustainable and innovative surface modification strategies. Her work continues to drive developments in both fundamental research and industrial applications.

Profiles: Scopus | Orcid

Featured Publications

Mancisidor, A.M.; García-Blanco, M.B.; Quintana, I.; Arrazola, P.J.; Espinosa, E.; Cuesta, M.; Albizuri, J.; Garciandia, F. (2023). Effect of Post-Processing Treatment on Fatigue Performance of Ti6Al4V Alloy Manufactured by Laser Powder Bed Fusion. Journal of Manufacturing and Materials Processing.

Fernández-Calvo, A.I.; Delgado, C.; Dufour, P.; Aldanondo, E.; Díaz, M.; García-Blanco, M.B. (2023). New EoL Routes of Al-Li Aircraft Integral LBW and FSW Welded Panels including New Cr-Free Coatings. Crystals.

García-Blanco, M.B. (2022). A study of parameter and post-processing effects on surface quality improvement of Binder Jet 3D-printed Invar36 alloy parts. Progress in Additive Manufacturing.

García-Blanco, M.B. (2021). Comparative study of different surface treatments applied to Ti6Al4V parts produced by Selective Laser Melting. Transactions of the IMF.

Garcia-Blanco, M.B.; Querejeta, A.; Perez-Garcia, M.R.; Ochoa, J.; Rodriguez, J.; Hope, P.; Hope, J.; Nunez, Y.; Gonzalez, C.; De Saja, R.; et al. (2020). Eco-friendly anaphoretic e-coating for corrosion protection in aeronautic applications (part 2). Galvanotechnik.

García-Blanco, M.B.; Diaz-Fuentes, M.; Espinosa, E.; Mancisidor, A.M.; Vara, G. (2020). Study of the effect of EP, blasting and laser treatments on the surface roughness of Ti6Al4V alloy fabricated by SLM at different build angles. Euro PM 2018 Congress and Exhibition.

García-Blanco, M.B. (2020). Corrosion protection of aeronautic components by an eco-friendly anaphoretic e-coating.

García-Blanco, M.B. (2019). Obtaining tailored surface characteristics by combining shot peening and electropolishing on 316L stainless steel. Applied Surface Science.