Dr. Zahra Rezanejad Gatabi | Nanomaterials | Best Researcher Award

Published on by Material Scientist

Dr. Zahra Rezanejad Gatabi | Nanomaterials | Best Researcher Award

 Mazandaran University of Medical Science | Iran

Dr. Zahra Rezanejad Gatabi is a distinguished Iranian researcher with a PhD in Medical Nanotechnology from Shahid Beheshti University of Medical Sciences. She obtained her master’s degree in Physical Chemistry from the University of Mazandaran and her bachelor’s degree in Applied Chemistry from Sharif University of Technology, achieving first rank at both graduate and doctoral levels. Dr. Rezanejad Gatabi’s research primarily focuses on electrochemical nanobiosensors, electrodeposition, drug delivery systems, and clay nanoparticle carriers, with her contributions significantly advancing medical nanotechnology and biomedical engineering. She has authored 16 scholarly documents that collectively received 168 citations from 158 other academic works, reflecting an h-index of 8. Her publications appear in reputable international journals such as Heliyon, Sensors and Actuators A: Physical, The Breast Journal, and Journal of Biomaterials Science, Polymer Edition. Dr. Rezanejad Gatabi is also credited with innovative research on hydrogel-based drug delivery systems, electrical impedance tomography, and nanoparticle-assisted wound healing. Beyond publishing, she has directed numerous research projects at Mazandaran University of Medical Sciences, focusing on wound healing formulations, polymeric hydrogel systems, and antioxidant-loaded nanocomposites. Additionally, she is the inventor of a patented EC-Meter device that enhances electrical conductivity measurement precision. Through her interdisciplinary approach bridging nanotechnology, electrochemistry, and biomedical applications, Dr. Rezanejad Gatabi continues to contribute substantially to the development of next-generation diagnostic and therapeutic technologies.

Profiles: Scopus | Googlescholar

Featured Publications

Rezanejad Gatabi, Z., Mirhoseini, M., Khajeali, N., Rezanejad Gatabi, I., Dabbaghianamiri, M., & Dorri, S. (2022). The accuracy of electrical impedance tomography for breast cancer detection: A systematic review and meta‐analysis. The Breast Journal.

Rezanejad Gatabi, Z., Saeedi, M., Morteza‐Semnani, K., Rahimnia, S. M., Yazdian‐Robati, R., & Hashemi, S. M. H. (2022). Green preparation, characterization, evaluation of anti‐melanogenesis effect and in vitro/in vivo safety profile of kojic acid hydrogel as skin lightener formulation. Journal of Biomaterials Science, Polymer Edition.

Mirhoseini, M., Rezanejad Gatabi, Z., Saeedi, M., Morteza‐Semnani, K., Talebpour Amiri, F., Kelidari, H. R., & Karimpour Malekshah, A. A. (2019). Protective effects of melatonin solid lipid nanoparticles on testis histology after testicular trauma in rats. Research in Pharmaceutical Sciences.

Golpour, M., Ebrahimnejad, P., Rezanejad Gatabi, Z., Najafi, A., Davoodi, A., Khajavi, R., Alimohammadi, M., & Mousavi, T. (2024). Green tea–mediated synthesis of silver nanoparticles: Enhanced anti‐cancer activity and reduced cytotoxicity in melanoma and normal murine cell lines. Inorganic Chemistry Communications.

Rezanejad Gatabi, Z., Heshmati, N., & Dabbaghianamiri, M. (2023). The application of clay‐based nanocomposite hydrogels in wound healing. Arabian Journal for Science and Engineering.

Mirhoseini, M., Rezanejad Gatabi, Z., Das, S., Joveini, S., & Rezanejad Gatabi, I. (2021). Investigating electrical impedance tomography (EIT) applications in neurology. Basic and Clinical Neuroscience.

Prof. Dr. Zhi-Xu Zhang | Crystallography | Best Researcher Award

Published on by Material Scientist

Prof. Dr. Zhi-Xu Zhang | Crystallography | Best Researcher Award

Prof. Dr. Zhi-Xu Zhang |  Zhejiang Normal University | China

Prof. Dr. Zhi-Xu Zhang is a Distinguished Professor at Zhejiang Normal University, renowned for his pioneering work in molecular-based ferroelectric and piezoelectric materials. With a total of 75 Scopus-indexed publications, an impressive 2,722 citations from 1,355 documents, and an h-index of 29, Dr. Zhang stands as one of the most influential young material scientists in the field of molecular ferroelectrics and crystalline stimuli-responsive materials. His research encompasses hybrid perovskite ferroelectrics, multiferroic coupling, phase transitions, and structure–property correlations, leading to significant advances in the development of metal-free and Ge-based hybrid perovskite ferroelectrics. He has published extensively in top-tier journals including Nature Communications, Journal of the American Chemical Society, Angewandte Chemie International Edition, Chemical Science, and Crystal Growth & Design, contributing to a deeper understanding of molecular ferroelectricity and functional materials. Dr. Zhang has also made groundbreaking contributions in coupling ferroelectric polarization with luminescent properties, establishing new design principles for multifunctional materials. His scientific excellence has earned him recognition as an Elsevier Highly Cited Chinese Researcher, the Baosteel Education Award, and inclusion in the World’s Top 2% Scientists list. Beyond his research, he serves as a Youth Editorial Board Member of Chinese Chemical Letters and holds lifetime membership in the Chinese Crystallographic Society. His leadership and innovation have also been acknowledged through multiple national research grants from the National Natural Science Foundation of China, the Zhejiang Provincial Science Fund, and the Jinhua Science and Technology Program. Through his visionary approach and deep scientific insight, Prof. Zhang continues to push the frontiers of molecular crystal engineering and functional material discovery, positioning himself as a global leader in material science and solid-state chemistry.

Profiles: Scopus | Orcid

Featured Publications

Zhou, Q.-F., Pan, L., Ni, H.-F., Ye, L.-K., Zhao, Y.-P., Luo, Q.-K., Teri, G., Luo, J.-Q., Fu, D.-W., Zhang, Z.-X., et al. (2025). Alkaline earth metal-based hybrid organic-inorganic perovskite-like ferroelectrics. Angewandte Chemie International Edition.

Li, L.-M., Du, C.-H., Wu, L., Zhuge, P., Liu, J., Xiao, Z.-J., Teri, G., Ni, H.-F., Jia, Q.-Q., Zhang, Z.-X., et al. (2025). Unraveling lattice void occupancy engineering for regulating optical/dielectric responses in hybrid crystals. Crystal Growth & Design.

Zhuang, B., Pan, L., Li, Z.-L., Liu, J.-Y., Zhang, Z.-X., Ding, K., Zhang, Y., Liu, Z., & Fu, D.-W. (2025). Multiple ferroic orderings in lead-free hybrid material induced by molecular asymmetric modification. ACS Materials Letters.

Huang, P.-Z., Liu, Z., Ye, L.-K., Ni, H.-F., Luo, J.-Q., Teri, G., Jia, Q.-Q., Zhuang, B., Wang, C.-F., Zhang, Z.-X., et al. (2025). Mechanically deformable organic ferroelectric crystal with plasticity optimized by fluorination. Nature Communications, 16, Article 58416.

Pan, L., Teri, G., Du, C.-H., Xiao, Z.-J., Liu, J., Zhuge, P., Liu, P.-G., Jia, Q.-Q., Zhang, Z.-X., Fu, D.-W., et al. (2025). Halogen engineering enables tunable dielectric response and dimensional regulation in organic–inorganic hybrid halides. Crystal Growth & Design.

Deng, B.-W., Rao, Z.-P., Shen, M.-J., Liang, K.-W., Zhu, Y., Wang, Z.-J., Ding, K., Su, C.-Y., Lun, M.-M., Zhang, Z.-X., et al. (2024). Homochirality to design high-Tc lead-free ferroelastic semiconductors. Journal of Materials Chemistry C, 12, Article D4TC00428K.

Mr. MD JAKARIA | Materials for Energy Applications | Industry Applications Award

Published on by Material Scientist

Mr. MD JAKARIA | Materials for Energy Applications | Industry Applications Award

Mr. MD JAKARIA | University of North Dakota | United States

Mr. Md. Jakaria is a dedicated researcher and emerging scholar in the field of Petroleum and Energy Engineering, currently pursuing his Ph.D. at the University of North Dakota, USA. His academic and research journey demonstrates a strong commitment to sustainable energy resource management and critical mineral recovery from oilfield-produced water. With a total of 9 citations from 9 documents, 5 research publications, and an h-index of 1, his work reflects growing recognition in the specialized field of petroleum and environmental engineering. His doctoral research, titled “Critical Minerals Recovery from the Oil and Gas Field Produced Water,” funded by the North Dakota Industrial Commission (NDIC), explores innovative methods for lithium and cesium extraction, contributing to the transition toward sustainable and circular energy systems. Mr. Jakaria’s interdisciplinary approach bridges hydrogeology, geochemistry, and petroleum engineering to develop eco-friendly and economically viable extraction processes. His notable publications include “Economic Analysis of Lithium and Salts Recoveries from Bakken Formation” in the Society of Petroleum Engineers Journal and “Lithium and Salt Extraction from the Bakken Produced Water,” which highlight his expertise in techno-economic modeling and environmental sustainability. In addition to his research, he has actively contributed to academic development as a Graduate Teaching Assistant for multiple engineering courses, mentoring undergraduate and graduate students in production and reservoir engineering. He has presented at prestigious conferences such as the SPE Annual Technical Conference and Exhibition and the U.S. Rock Mechanics/Geomechanics Symposium, reinforcing his professional engagement within the global petroleum research community. Mr. Jakaria’s growing portfolio of research projects funded by the Department of Energy (DOE), NIH, and ND EPSCoR underscores his capability to address complex industrial challenges through innovative and data-driven approaches. His academic excellence, technical proficiency, and leadership potential mark him as a promising contributor to the advancement of sustainable resource recovery and energy innovation.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Jakaria, M., Ling, K., Wang, D., Crowell, J., & Zheng, D. (2025). Economic analysis of lithium and salts recoveries from Bakken formation. SPE Journal, 30(5), 3122–3136.

Rahman, M., Hoque, M. E., Hasan, Z., Alam, M. M. T., Jakaria, M., Das, K., et al. (2025). Quantification and characterization of microplastics in an intertidal gastropod: The common periwinkle Littorina littorea. Water Biology and Security, 100401.

Jakaria, M., Ling, K., Wang, D., Crowell, J., & Zheng, D. (2024). Economic analysis of lithium and salts recoveries from Bakken formation. In SPE Annual Technical Conference and Exhibition (Paper No. D021S027R002).

Jakaria, M., Ling, K., Pu, H., Wang, D., Crowell, J., Eagle, L. H., Weaver, B., et al. (2025). Lithium and salt extraction from the Bakken produced water. Journal of Petroleum Exploration and Production Technology, 15(11), 1–24.

Njie, C. E., Jakaria, M., & Ling, K. (2025). A revised study of iron stress testing in hydraulic fracturing fluid and treated produced water: Insights from the Bakken. In ARMA US Rock Mechanics/Geomechanics Symposium (Paper No. D032S040R014).

Prof. Henry Hu | Mechanical Properties of Materials | Best Researcher Award

Published on by Material Scientist

Prof. Henry Hu | Mechanical Properties of Materials | Best Researcher Award

Prof. Henry Hu | University of Windsor | Canada

Prof. Henry (Hongfa) Hu is a tenured full Professor in the Department of Mechanical, Automotive, and Materials Engineering at the University of Windsor, Canada, where he has made pioneering contributions to light alloy processing, composite materials, and solidification modeling. With an academic foundation built on a Ph.D. from the University of Toronto, an M.A.Sc. from the University of Windsor, and a B.A.Sc. from Shanghai University of Technology, Prof. Hu’s career spans both academia and industry, including senior engineering roles at Ryobi Die Casting (USA), Chief Metallurgist at Meridian Technologies, and Research Scientist at the Institute of Magnesium Technology. His scholarly excellence is demonstrated by 201 peer-reviewed documents, 2,395 citations from 1,985 articles, and an h-index of 26, reflecting the global recognition of his impactful work. Prof. Hu’s research focuses on materials processing, transport phenomena, phase transformation, and dissolution kinetics in light alloys and composites, with applications extending to the automotive and aerospace sectors. He has developed advanced numerical modeling techniques for metal casting and innovative alloy designs to improve performance and cost-efficiency. His applied research has influenced industrial practices in magnesium-based automotive components and sustainable manufacturing. A respected leader in his field, Prof. Hu has served as a Key Reader for Metallurgical and Materials Transactions, a grant reviewer for the Natural Sciences and Engineering Research Council of Canada (NSERC) and the National Science Foundation (USA), and as a committee member for CIM-METSOC, AFS, and USCAR. Through his extensive academic service, mentorship, and internationally recognized publications, Prof. Hu continues to bridge the gap between fundamental metallurgy and industrial innovation, positioning him as a leading figure in advanced materials engineering and applied metallurgical research.

Profile: Scopus

Featured Publications

Comparative analyses of microstructure and assessment of wrought Mg AZ31 in casting forms. Journal of Materials Engineering and Performance.

Influence of Galfan coating on tensile properties, microstructure, and dislocation densities of CRS 1018 steel.

Arc erosion mechanism and surface characteristics of TiN particles reinforced Ag-based electrical contact materials. Wear.

Microstructure, tensile and fracture behaviors of squeeze cast wrought Mg alloy AZ80. [Conference Paper].

Preparation and arc erosion behavior of novel Ag-TiN electrical contact materials. Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science.

Mr. YoungSoo Cho | Polymer Science | Best Researcher Award

Published on by Material Scientist

Mr. YoungSoo Cho | Polymer Science | Best Researcher Award

Mr. YoungSoo Cho | Kyunghee University | South Korea

Mr. YoungSoo Cho is a dedicated packaging engineer and researcher with over three years of specialized experience in eco-friendly packaging development and product innovation. He holds a Bachelor’s degree in Mathematics from Yonsei University, Wonju Campus, where he built a strong analytical foundation that now supports his technical approach to packaging design and optimization. Currently based in South Korea, Mr. Cho has served in key roles at Soft Pack Co., Ltd., and Thermo Lab Korea, where he led multiple national projects focused on sustainable materials, quality control, and certification management. His professional expertise includes R&D in paper-based packaging, injection-molded valve development, and biodegradable coating materials. Proficient in ISO and FSC certification management, QC protocol development, and testing supervision, he has significantly contributed to improving process efficiency and product reliability in packaging operations. Mr. Cho’s qualifications include certification as a Packaging Engineer and intermediate proficiency in AutoCAD, enhancing his design and production capabilities. His TOEIC score of 810 reflects strong English communication skills, complementing his technical expertise in cross-functional collaboration. With a reputation for persistence, responsibility, and innovation, he has successfully managed government-funded research projects, developed new product lines, and introduced eco-conscious solutions for consumer packaging. Combining scientific precision with creative engineering, Mr. Cho continues to advance the field of sustainable packaging through his commitment to research, innovation, and environmental responsibility. His ability to integrate technical skill, regulatory compliance, and sustainable design principles marks him as a promising professional contributing to the next generation of environmentally friendly packaging solutions.

Profile: Orcid

Featured Publication

Kim, G. H., Cho, Y. S., Shin, G. H., & Kim, J. T. (2025). Effect of silane surface treatments on the interfacial shear strength between cotton yarn and poly(lactic acid) resin. Materials, 18(19), 4582.

Dr. Abhishek Sharma | Mechanical Properties of Materials | Best Researcher Award

Published on by Material Scientist

Dr. Abhishek Sharma | Mechanical Properties of Materials | Best Researcher Award

Dr. Abhishek Sharma | Chandigarh University | India

Dr. Abhishek Sharma, Ph.D. in Geotechnical Engineering from NIT Hamirpur, is currently serving as an Associate Professor at Chandigarh University, Punjab. With over 14 years of teaching and research experience across multiple engineering institutions, he has made significant contributions to foundation engineering, soil stabilization using waste materials, and analytical modeling of geotechnical problems. Dr. Sharma has authored 55 documents, which have garnered 442 citations, reflecting his h-index of 10. His research portfolio includes guiding 4 Ph.D. scholars, 2 M.E. scholars, and successfully mentoring 28 M.E. students, with a focus on sustainable construction practices and innovative foundation techniques. He has published more than 60 papers in reputed journals and conferences and has been recognized with multiple Best Paper Awards at international conferences in India. Apart from research, he has held administrative roles such as Academic Coordinator for several Civil Engineering batches and has acted as Head of Department on multiple occasions. He is skilled in advanced geotechnical and computational tools including PLAXIS 3D, GEO5, ABAQUS, MATLAB (ANN), ARC GIS, and IITPAVE THND, applying these to practical and research-driven projects such as uplift capacity of granular pile anchors, soil reinforcement using industrial and agricultural wastes, and landslide hazard assessment. His contributions extend to book publications and editorial works on machine learning applications, spatial optimization, and circular economy innovations in construction. Known for his leadership, organizational capabilities, and strong communication skills, Dr. Sharma combines academic rigor with a practical approach to engineering challenges, making him a distinguished professional in geotechnical research and sustainable infrastructure development.

Profiles: Scopus | Orcid

Featured Publications

Sharma, A., Singh, K., Alsabhan, A. H., & Qadri, J. (2025, September). Designing flexible pavement for low volume roads incorporating waste materials and polypropylene fiber: An approach towards waste reduction and reuse.

Tiwary, A., Singh, S., Raj, J. R. B., & Balmiki, V. (2025, October). Optimizing lateral performance of a 60-story diagrid steel structure: Influence of diagonal configuration and bracing strategies.

Ankit, A., Tiwary, A., Sharma, A., & Senagah, A. (2025, September). Compressive strength evaluation and predictive modeling of mortar incorporating zirconia and rice husk ash using ensemble machine learning.

Sharma, A., Kumari, A., Alsabhan, A. H., & Mehta, A. (2025, July). Optimization of steel anchor pile configurations for enhanced pullout resistance in expansive soil foundations.

Jallayu, P. T., Singh, K., Onyelowe, K. C., & Tiwary, A. (2025, July). Rainfall-induced landslides in Himachal Pradesh: A review of current knowledge and research trends.

Mr. Kunal Pal | Biomaterials | Young Scientist Award

Published on by Material Scientist

Mr. Kunal Pal | Biomaterials | Young Scientist Award

Mr. Kunal Pal | Jadavpur University | India

Mr. Kunal Pal is an emerging biomedical researcher with strong expertise in nanomedicine, molecular biology, and cancer therapeutics. With 64 published documents, 1,326 total citations from 1,177 referencing documents, and an h-index of 20, his research contributions reflect high academic quality and influence. He has conducted pioneering work in developing nanoparticle-based delivery systems, particularly focusing on biocompatible and green nanomaterials for targeted cancer therapy. His doctoral research at Bose Institute explored curcumin delivery systems for triple-negative breast cancer, showcasing innovation in molecular design and therapeutic efficacy. Mr. Pal’s studies integrate multidisciplinary approaches encompassing toxicology, bioimaging, nanotechnology, and drug delivery mechanisms, resulting in publications in reputed journals such as Inorganic Chemistry, Dalton Transactions, Materials Science and Engineering: C, and Nanomedicine. He has also presented his research at multiple international conferences and received honors including the Young Researcher Award from the National Environmental Science Academy. Beyond academia, he has served as a scientific advisor in industry and reviewer for leading journals like Scientific Reports and Apoptosis, demonstrating his versatility and leadership in translational science. His commitment to bridging molecular research with therapeutic applications positions him as a forward-looking scientist contributing to the advancement of biomedical innovation and sustainable nanotechnology in cancer treatment.

Profiles: Scopus | Google Scholar

Featured Publications

Gautam, A., Ray, A., Mukherjee, S., Das, S., Pal, K., Das, S., Karmakar, P., Ray, M., et al. (2018). Immunotoxicity of copper nanoparticle and copper sulfate in a common Indian earthworm. Ecotoxicology and Environmental Safety, 148, 620–631.

Laha, D., Pal, K., Chowdhuri, A. R., Parida, P. K., Sahu, S. K., Jana, K., & Karmakar, P. (2019). Fabrication of curcumin-loaded folic acid-tagged metal-organic framework for triple negative breast cancer therapy in in vitro and in vivo systems. New Journal of Chemistry, 43(1), 217–229.

Roy, S. D. S., Bardhan, S., Pal, K., Ghosh, S., Mandal, P., et al. (2018). Crystallinity mediated variation in optical and electrical properties of hydrothermally synthesized boehmite (γ-AlOOH) nanoparticles. Journal of Alloys and Compounds, 763, 749–758.

Banerjee, S., Bagchi, B., Bhandary, S., Kool, A., Hoque, N. A., Biswas, P., Pal, K., et al. (2018). Antimicrobial and biocompatible fluorescent hydroxyapatite-chitosan nanocomposite films for biomedical applications. Colloids and Surfaces B: Biointerfaces, 171, 300–307.

Ghorai, P., Pal, K., Karmakar, P., & Saha, A. (2020). The development of two fluorescent chemosensors for the selective detection of Zn²⁺ and Al³⁺ ions in a quinoline platform by tuning the substituents in the receptor part. Dalton Transactions, 49(15), 4758–4773.

Mr. Edwin Eyram Klu | Mechanical Properties of Materials | Young Scientist Award

Published on by Material Scientist

Mr. Edwin Eyram Klu | Mechanical Properties of Materials | Young Scientist Award

Mr. Edwin Eyram Klu | Virginia Tech  | United States

Mr. Edwin Eyram Klu is an emerging materials scientist whose research focuses on the mechanical behavior, corrosion resistance, and tribological properties of light-metal alloys and spinel-based composites. He currently advances work in deformation processing and thin-film engineering, combining experimental metallurgy with nanostructural characterization techniques such as TEM, SEM, and nanoindentation. His research explores severe plastic deformation, ultrafine-grain design, and the optimization of magnesium–lithium and aluminum alloys for enhanced structural and corrosion performance. Mr. Klu has published 14 peer-reviewed documents, which have received 365 citations from 343 sources, reflecting an h-index of 11 and strong early-career impact in applied materials science. He has contributed to leading international journals, including Journal of Materials Research and Technology, Materials Science and Engineering A, Corrosion and Materials Degradation, Metals, Coatings, Construction and Building Materials, and Journal of Alloys and Compounds. His work has elucidated fundamental mechanisms of tribocorrosion, microstructural evolution, and passivation behavior in alloys subjected to electrochemical and mechanical stresses. Recognized for academic excellence, Mr. Klu has presented his findings at international scientific forums and received honors for outstanding research communication. Beyond laboratory investigations, he actively supports undergraduate and graduate education through teaching and mentorship in materials engineering. His multidisciplinary expertise integrates metallurgical processing, nanomechanics, and electrochemical engineering to develop lightweight, durable, and environmentally resilient materials. With a growing record of influential publications and global collaborations, Mr. Klu represents the next generation of innovative researchers shaping the future of advanced materials design and performance optimization.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Zhang, Z., Dandu, R. S. B., Klu, E. E., & Cai, W. (2023). A review on tribocorrosion behavior of aluminum alloys: From fundamental mechanisms to alloy design strategies. Corrosion and Materials Degradation, 4(4), 31.

Klu, E. E., Jiang, J., Wang, G., Gao, B., Ma, A., & Song, D. (2023). Achieving ultrahigh specific strength of an ultrafine grained Mg–9Li–1Al alloy via the combined processing of ECAP with repeated annealing and rolling. Journal of Materials Research and Technology, 25, 6230–6242.

Liu, W., Wang, Q., Zou, G., Klu, E. E., Ai, Z., Yang, F., Liang, N., Gu, L., Gao, B., Lian, B., et al. (2023). Revealing the enhanced passivation and anti-corrosion performance of surface-nanocrystallization-modified Cr-alloyed rebar via electrochemical testing and XPS depth analysis. Coatings, 13(1), 192.

Klu, E. E., Song, D., Li, C., Wang, G., Gao, B., Ma, A., & Jiang, J. (2022). Achieving ultra-fine grains and high strength of Mg–9Li alloy via room-temperature ECAP and post rolling. Materials Science and Engineering: A, 833, 142371.

Wang, G., Jiang, J., Qiao, Y., Gu, L., Klu, E. E., Gong, X., Ma, A., & Song, D. (2022). Enhanced super-hydrophobicity and corrosion resistance of the one-step hydrothermal synthesized coating on the Mg–9Li alloy: Role of the solid-solution treated substrate. Journal of Alloys and Compounds, 929, 166044.