Abolfazl Akbarzadeh | Nanotechnology | Best Researcher Award

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Prof. Abolfazl Akbarzadeh | Nanotechnology | Best Researcher Award

Tabriz University of Medical Sciences | Iran

Dr. Abolfazl Akbarzadeh, a distinguished Associate Professor of Medicinal Chemistry (Nanobiomedicine) at the Department of Medical Nanotechnology, Faculty of Advanced Medical Sciences, Tabriz University of Medical Sciences, Iran, is internationally recognized as a Highly Cited Researcher by Thomson Reuters ISI Web of Science, highlighting his placement among the top 1% of scholars worldwide in citations. With an H-index of 66 (Scopus) and over 21,700 citations from 18,576 documents, Dr. Akbarzadeh has made profound contributions to nanomedicine, drug delivery, and tissue engineering, with more than 280 ISI-indexed publications. His pioneering work focuses on the design, synthesis, and characterization of functionalized nanoparticles and nanostructures for biomedical applications, particularly in controlled delivery of anticancer agents, including doxorubicin-loaded Fe₃O₄ magnetic nanoparticles and polymer-coated smart nanocarriers. These innovative systems enhance therapeutic efficacy while minimizing systemic toxicity and enable targeted delivery to cancerous tissues. In addition to drug delivery, Dr. Akbarzadeh has significantly advanced nanobiomaterials for regenerative medicine, including engineering hydrogels with tunable mechanical properties for soft tissue regeneration and the development of polymeric micro- and nanoparticles containing proteins, peptides, and anticancer drugs. He has applied his expertise in 3D bioprinting, stem cell therapy, and nanofiber design for skin and bone tissue regeneration, exploring natural and biocompatible materials such as propolis and zeolite/hydroxyapatite nanoparticles to promote rapid tissue repair. His work integrates microfluidics for precision synthesis of nanobiomaterials, providing platforms for efficient nanobio-targeting and biomedical engineering applications. Dr. Akbarzadeh’s interdisciplinary research encompasses organic, inorganic, analytical chemistry, nanotechnology, and bioengineering, reflecting his robust academic foundation from B.Sc. in Applied Chemistry, M.Sc. in Pure Chemistry, to a Ph.D. in Medicinal Chemistry. His international experience as a visiting professor at Northeastern University (Boston, USA) and UCLA (California, USA) underscores his global scientific influence. Beyond research, he has mentored numerous students in nanobiomedicine and nanotechnology. His innovations have resulted in multiple patents for nanoparticle-based drug delivery systems earning him numerous national awards and recognition for excellence in scientific research and innovation, affirming his status as a leading figure in nanobiomedicine and translational biomedical science.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

  • Jafari-Najaf-Abadi, A., Pazoki-Toroudi, H., Hadjianfar, M., Mirjafary, Z., … (2025). Core–shell nanofibers for localized melanoma therapy delivering Pioglitazone nanoemulsions and gemcitabine dual loaded system. Scientific Reports, 15(1), 28401.

  • Haghighi, M. A., Jahandideh, A., Chamheidari, G. A., Hesaraki, S., Akbarzadeh, A. (2025). Therapeutic potential of nanofibrous scaffolds in calvarial bone regeneration. BioNanoScience, 15(3), 386.

  • Fesendouz, S. A., Hamishehkar, H., Alizadeh, E., Rahbarghazi, R., … (2025). Bactericidal activity and biofilm eradication of Pseudomonas aeruginosa by liposome-encapsulated piperacillin/tazobactam. BioNanoScience, 15(1), 87.

  • Hajati Ziabari, A., Jahandideh, A., Akbarzadeh, A., Mortazavi, P. (2025). Evaluation of the effects of curcumin/polycaprolactone nano composite on the healing of experimental osteomyelitis in rabbit tibia. Iranian Journal of Veterinary Surgery, 20(1), 38–46.

  • Hajishoreh, N. K., Mellatyar, H., Kaamyabi, S., Abasalizadeh, F., Akbarzadeh, A. (2024). Preparation and evaluation of polyurethane-based nanofibers for controlled release of simvastatin for the treatment of cardiac disorders. BioNanoScience, 14(2), 1687–1695.

Oka Arjasa | Nanotechnology | Best Researcher Award

Published on by Analytical Chemistry

Assoc. Prof. Dr. Oka Arjasa | Nanotechnology | Best Researcher Award

BRIN | Indonesia

Assoc. Prof. Oka Pradipta Arjasa, Ph.D. is a leading researcher and Principal Investigator in Colloid and Nanoscience at the Fuel Cells System and Hydrogen Production Research Group, Energy Conversion and Conservation Research Centre (PR KKE), BRIN, Indonesia. With a strong focus on hydrogen technology and sustainable energy solutions, he has been instrumental in developing cutting-edge research and national policy frameworks for energy transition. Dr. Arjasa holds a Ph.D. in Chemistry from the University of Manchester, UK, where he specialized in the magnetic properties of graphene using Electron Spin Resonance. He also earned a Master of Engineering from the University of Indonesia, a Master of Science from National Taiwan University of Science and Technology, and a Bachelor’s degree in Chemical Engineering from Universitas Gadjah Mada. His professional journey includes over a decade of research at the Center for Material Technology (BPPT) and ongoing contributions to national and ASEAN-level scientific initiatives. He currently serves as a Technical Committee member for Indonesia’s Hydrogen Technology Standard (TC 27-11) and as the ASEAN COSTI focal point for Sustainable Energy Research. In Scopus, he has published 15 documents with 28 citations and an h-index of 3. Google Scholar reports 530 citations with an h-index of 10, reflecting his growing impact in sustainable energy research. In addition to his research, Dr. Arjasa is Vice President of Power Resilience at HAGI, a reviewer for international journals, and a dedicated member of multiple scientific consortia. His work in battery recycling, rare earth materials, and hydrogen fuel development reflects his commitment to advancing clean energy technologies in Indonesia and beyond.

Profiles : Scopus | Orcid | Google scholar 

Featured Publications

Bhagaskara, A., Wijaya, K., Trisunaryanti, W., Saputra, D. A., Agustanhakri, A., Taqwatomo, G., Arjasa, O. P., Budiman, A. H., & Anggaravidya, M. (2025, October). Upcycling secondary nickel from spent nickel-manganese-cobalt (NMC) batteries as a nanocatalyst on sulfated natural zeolite for converting LDPE plastic waste into jet-fuel hydrocarbons. Next Materials.

Hastuti, L. P., Budiman, A. H., Arjasa, O. P., Ristiana, D. D., Gumelar, M. D., Saputra, D. A., Rahayu, S., Husin, S., & Prasetyo, H. (2025, June 18). Synergistic NiS/CuO heterostructures as two-in-one catalysts for dye removal and bacterial inactivation. International Journal of Environmental Analytical Chemistry.

Hastuti, L. P., Budiman, A. H., Darsono, N., Timuda, G. E., Bakri, A., Darmawan, A., & Arjasa, O. P. (2025, May 4). Novel g-C₃N₄/rGO/NiS incorporated into GO free-standing membrane as a photocatalytic membrane for excellent dye photodegradation. Fullerenes, Nanotubes and Carbon Nanostructures.

Simamora, R. M. A., Setyadi, J. P., Pravitasari, R. D., Arjasa, O. P., Damisih, D., Hapsari, A. U., Raharjo, J., Indayaningsih, N., Subhan, A., Budiman, A. H., et al. (2025, January 13). Pt nanowire arrays on graphene-integrated cathode gas diffusion layer for proton exchange membrane fuel cells. ACS Applied Energy Materials.

Husin, S., Saudi, A. U., Taqwatomo, G., Gumelar, M. D., Raharjo, J., Rahayu, S., Prasetyo, H., Yuliani, H., Saputra, D. A., Arjasa, O. P., et al. (2024). Recovery of valuable metals from NMC-811 Li-ion battery waste with froth flotation and hydrometallurgical extraction. Engineering and Applied Science Research.

 

Myrtil Kahn | Coordination Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Dr. Myrtil Kahn | Coordination Chemistry | Best Researcher Award

CNRS | France

Profiles

Scopus
Orcid

Early Academic Pursuits

Dr. Myrtil L. Kahn began her academic journey with a PhD in molecular compounds, under the supervision of a renowned expert in the field of coordination chemistry. Her doctoral work laid a strong foundation in molecular chemistry, which she later expanded into interdisciplinary domains. Her postdoctoral research included advanced work on ferrite nanoparticles and intermetallic particles, which positioned her at the intersection of nanoscience, materials chemistry, and applied physics.

Professional Endeavors

Following her postdoctoral experience, Dr. Kahn joined CNRS and quickly rose through the ranks to become a Senior Scientist and Research Director. She currently leads the “Nano-chemistry, Organization, and Sensors” team at the Laboratory of Coordination Chemistry (LCC) and also co-directs a multidisciplinary research initiative in collaboration with another leading national laboratory. This joint effort culminated in the establishment of a CNRS-affiliated joint research laboratory, reflecting her leadership in managing strategic partnerships with key industrial and governmental stakeholders, including aerospace and space agencies.

Contributions and Research Focus

Dr. Kahn’s research centers on nanoscience and its application to broad societal challenges such as energy, environment, space, aeronautics, and health. She has significantly contributed to the design and synthesis of hybrid nano-objects and multifunctional coatings. Her work focuses on controlling the structural and functional properties of nanoparticles particularly semiconductor and magnetic oxides and integrating them into real-world devices. Utilizing a safe-by-design philosophy, she innovates at the interface of molecular chemistry, surface science, and nanotechnology. Her research also emphasizes understanding surface-ligand interactions through advanced techniques like NMR spectroscopy, which is crucial for ensuring colloidal stability and optimizing material behavior in biological and industrial environments.

Impact and Influence

Dr. Kahn has established herself as a leader in applied nanosciences, successfully bridging fundamental chemistry with device integration. Her research has attracted substantial funding through over thirty competitive contracts, nearly half of which involve industrial collaborations. These projects have led to multiple patents with international extensions, showcasing her commitment to innovation and knowledge transfer. Beyond scientific output, her leadership in organizing large-scale conferences and her role in interdisciplinary teams underscore her influence across both academic and industrial landscapes.

Academic Citations

Her research excellence is reflected in her strong citation metrics. With thousands of citations and an impressive h-index, her work enjoys sustained recognition in the global scientific community. She has authored more than a hundred publications in peer-reviewed international journals, contributed to several book chapters, and is actively involved in reviewing and editorial responsibilities within leading scientific events and journals.

Technical Skills

Dr. Kahn possesses deep technical expertise in organometallic synthesis, nanoparticle surface chemistry, colloidal stability, and functional coatings. She has extensive experience in spectroscopic analysis, particularly NMR, for the investigation of ligand dynamics and surface coordination. Her proficiency extends to hybrid material fabrication, integration of nanoparticles into sensors and devices, and the development of safe-by-design methodologies. This multidisciplinary toolkit enables her to work effectively at the interface of chemistry, physics, and biology.

Teaching Experience

While her primary role is research-intensive, Dr. Kahn actively contributes to mentoring young researchers and postdoctoral fellows. She fosters scientific development through collaborative research, co-authorship, and direct supervision. Her mentorship style is marked by encouraging innovation and interdisciplinary approaches, preparing early-career scientists for careers in both academia and industry.

Legacy and Future Contributions

Dr. Kahn’s legacy is one of impactful science, interdisciplinary collaboration, and societal relevance. Her commitment to applied nanoscience has led to the development of novel materials and processes with potential applications in biotechnology, aerospace, and environmental technology. As co-director of a cutting-edge joint research lab, she continues to expand her collaborative reach, ensuring that her contributions influence the next generation of researchers. Her ongoing projects in multifunctional nanocomposites and hybrid processes promise continued breakthroughs in high-performance materials.

Notable Publications

Competition between ordered morphologies of functionalized silver nanoparticles elucidated by a joint experimental and multiscale theoretical study

Authors: David Loffreda; Nathalie Tarrat; Corinne Lacaze‑Dufaure; Franck Rabilloud; Katia Fajerwerg; Myrtil L. Kahn; Vincent Collière; Christine Lepetit; Pierre Fau
Journal: Nano Today
Year: 2025

Understanding Ion‑Exchange Processes in the Synthesis of ZnSₓ@ZnO₁₋ₓ Heterostructures from Controlled Sulfidation of ZnO Nanocrystals

Authors: Ekaterina Bellan; Martin Jakoobi; Vincent Collière; Yannick Coppel; Julien Trébosc; Olivier Lafon; Pierre Lecante; Paul Fleurat‑Lessard; Céline Dupont; Jean‑Cyrille Hierso; Pierre Fau; Katia Fajerwerg; Lauriane Pautrot‑d’Alençon; Thierry Le Mercier; Myrtil L. Kahn
Journal: Chemistry of Materials
Year: 2024

Spontaneous Emulsification of Organometallic Complexes Applied to the Synthesis of Nanocapsules Active for H₂ Release from Ammonia‑Borane

Authors: Olivier Gazil; Ludivine Rault; Déborah Iglicki; Vincent Collière; Gizem Karacaoglan; Didier Poinsot; Moad Bouzid; Jean‑Cyrille Hierso; Myrtil L. Kahn; Nick Virgilio; Fabienne Gauffre
Journal: Langmuir (The ACS Journal of Surfaces and Colloids)
Year: 2024

Synthesis of TiO₂/SBA‑15 Nanocomposites by Hydrolysis of Organometallic Ti Precursors for Photocatalytic NO Abatement

Authors: Ons El Atti; Julie Hot; Katia Fajerwerg; Christian Lorber; Bénédicte Lebeau; Andrey Ryzhikov; Myrtil L. Kahn; Vincent Collière; Yannick Coppel; Nicolas Ratel‑Ramond; Philippe Ménini; Pierre Fau
Journal: Inorganics
Year: 2024

Conclusion

Dr. Myrtil L. Kahn stands as a prominent figure in nanoscience and coordination chemistry. Her pioneering research, strong industrial collaborations, and leadership in both national and international scientific communities demonstrate her eligibility for high-level scientific honors. Through her interdisciplinary vision and dedication to real-world impact, she continues to shape the future of materials science and remains an exemplary model for academic and industrial synergy.

 

Dan Chen | Nanotechnology | Best Researcher Award

Published on by Analytical Chemistry

Dr. Dan Chen | Nanotechnology | Best Researcher Award

National University of Defense Technology, China

👨‍🎓Profiles

🎓 Educational Background & Career

Dr. Dan Chen is currently an Assistant Professor at the National University of Defense Technology, China. He earned his Ph.D. in Materials Science and Engineering from Huazhong University of Science and Technology, where he also completed his Bachelor’s degree. His academic journey reflects strong expertise in materials science, focused particularly on micro/nano structures, polymer microspheres, photonic crystals, and composites.

🔬 Research Focus & Contributions

Dan’s research primarily explores advanced polymer processing technologies, especially the synthesis and forming mechanisms of polymer nanospheres. He has innovated in rubbery thermoforming technology, advancing the manufacturing of precision polymer optical products with nanoscale control. His work also addresses key challenges in optical materials by developing novel non-melting forming methods that overcome orientation defects like birefringence and optical distortion, improving product precision in demanding optical applications.

🚀 Research Leadership & Projects

Dan has led multiple significant projects including:

  • A Youth Independent Innovation Fund project on non-cooled infrared detectors leveraging heterogeneous core-shell structures for enhanced upconversion luminescence.

  • A Hunan Provincial Young Researcher Fund project on high refractive index inorganic-polymer core-shell nanospheres and new elastic-state forming methods.

  • Innovation Technology and National Natural Science Foundation projects focused on thermoforming and polymer optical product manufacturing, often leading small teams of doctoral and master’s students.

🏆 Awards & Recognitions

He has been recognized with several prestigious honors such as the Fourth Batch of High-level Innovative Talents, Academic Rising Star, and China National Scholarship (a highly selective award given to 0.2% of students). He also earned the title of “Academic Nova” at Huazhong University of Science and Technology and multiple first-class scholarships throughout his studies.

⚙️ Technical Expertise & Innovations

Dan’s technical skillset spans polymer micro/nano fabrication, material modification, and precision forming technologies. He has made notable contributions to industrial applications, such as developing charge-laden masks with an efficient melt-blown process that address environmental and health challenges associated with conventional electrostatic mask filters. His interdisciplinary approach combines material science with practical product design for high-performance applications.

🌟 Impact & Future Directions

Dr. Chen’s work tackles both fundamental science and industry-relevant problems, pushing forward innovative polymer processing methods that enhance optical and functional material properties. His leadership in research projects and collaborative team management underscores his role as an emerging leader in materials science and engineering. Looking ahead, his focus on nano-engineered composites and precision polymer devices is likely to influence fields ranging from optics to biomedical materials.

📖Notable Publications

DEM-bond model: A computational framework for designing mechanically enhanced polymer nanosphere-based ordered nanostructures
Authors: Dan Chen*, §, Zhiren Chen§, Zhihong Zhu, Chucai Guo, et al.
Journal: Materials & Design
Year: 2025

Smart Window with Reversible and Instantaneous Photoluminescence based on Microsphere Structure
Authors: Dan Chen*, §, Yuang Chen§, Zhihong Zhu, Chucai Guo, et al.
Journal: ACS Applied Materials & Interfaces
Year: 2024

Spreading Behavior of Non-Spherical Particles with Reconstructed Shapes Using Discrete Element Method in Additive Manufacturing
Authors: Tengfang Zhang§, Dan Chen§, Yunming Wang*, Huamin Zhou*, et al.
Journal: Polymers
Year: 2024

Current and Future Trends for Polymer Micro/nano Processing in Industrial Applications
Authors: Dan Chen§, Yunming Wang§, Humin Zhou*, et al.
Journal: Advanced Materials
Year: 2022

Birefringence- and Optical Distortion-free Isotropic Polymer Lens Assisted by Photonic Microspheres
Authors: Dan Chen, Yunming Wang*, Yue Fu, Huamin Zhou*, et al.
Journal: ACS Applied Materials & Interfaces
Year: 2020