Vijayarajkumar Palanirajan | Pharmaceutical Technology | Excellence in Research Award

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Prof. Vijayarajkumar Palanirajan | Pharmaceutical Technology | Excellence in Research Award

Professor at UCSI University | Malaysia

Prof. Palanirajan Vijayarajkumar is a leading researcher in pharmaceutical sciences whose work has consistently advanced the frontiers of nanomedicine, targeted drug delivery, and biomaterial-based therapeutic systems, reflected by 2,103 Scopus citations, 92 indexed publications, and an h-index of 20. His research focuses on engineering dendrimeric nanostructures, PEGylated carriers, lipid-based nanoparticles, β-cyclodextrin inclusion complexes, gold nanoplatforms, and chitosan-mediated delivery systems to address challenges in solubility, stability, bioavailability, and targeted action of complex bioactive molecules. He has made substantial contributions to cancer nanotherapeutics, peptide-based vaccines, wound-healing biomaterials, antiviral and antibacterial nano-systems, and mucoadhesive oral formulations. His expertise spans computational modeling, nanoparticle engineering, characterization, and biologically relevant evaluations to design systems capable of enhanced cellular uptake, sustained release, and improved therapeutic efficacy. As main or corresponding author in many Q1 and Q2 journals, he has produced impactful research on polymeric conjugates, recombinant growth factor carriers, nanolipid systems, controlled-release oral dosage forms, and molecular interaction studies. His patents on nanoparticle-based therapeutics and peptide vaccines underscore the translational relevance of his work. Alongside extensive postgraduate mentoring and leadership in funded research, his scientific output continues to influence modern pharmaceutical technology and applied nanoscience. His strong publication record, citation impact, and innovative contributions establish him as an outstanding candidate for recognition under the Excellence in Research Award.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Tekade, R. K., Kumar, P. V., & Jain, N. K. (2009). Dendrimers in oncology: An expanding horizon. Chemical Reviews, 109(1), 49–87. Cited by: 599

Nahar, M., Dutta, T., Murugesan, S., Asthana, A., Mishra, D., Rajkumar, V., … (2006). Functional polymeric nanoparticles: An efficient and promising tool for active delivery of bioactives. Critical Reviews in Therapeutic Drug Carrier Systems, 23(4). Cited by: 271

Kumar, P. V., Asthana, A., Dutta, T., & Jain, N. K. (2006). Intracellular macrophage uptake of rifampicin loaded mannosylated dendrimers. Journal of Drug Targeting, 14(8), 546–556. Cited by: 266

Selvam, T. P., & Kumar, P. V. (2015). Quinazoline marketed drugs. Research in Pharmacy, 1(1). Cited by: 239

Gajbhiye, V., Palanirajan, V. K., Tekade, R. K., & Jain, N. K. (2009). Dendrimers as therapeutic agents: A systematic review. Journal of Pharmacy and Pharmacology, 61(8), 989–1003. Cited by: 234

Zhi Zong | Computational Mechanics | Best Researcher Award

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Prof. Dr. Zhi Zong | Computational Mechanics | Best Researcher Award

Professor at Fuyao University of Science and Technology | China

Prof. Dr. Zhi Zong is a leading researcher whose work integrates structural mechanics, fluid dynamics, computational modeling, and probabilistic engineering to advance the understanding of complex marine and mechanical systems. With 5,620 citations, 334 research documents, and a Scopus h-index of 38, his publications demonstrate both volume and influence within international scientific communities. His contributions include formulating high-accuracy Differential Quadrature (DQ) computational methods, such as localized, complex, and variable-order DQ techniques, which have improved the numerical simulation capabilities used in ocean engineering, ship mechanics, and structural analysis. He has made pioneering advances in uncertainty quantification, notably by identifying the variability of ship structural vibrations caused by geometric imperfections and by developing an asymptotically unbiased entropy estimator for probability distribution modeling-an outcome that has strengthened probabilistic mechanics applications. His Random Pore Model for sea ice represents an important development in capturing realistic mechanical and physical behaviors of ice, contributing to engineering design, climate studies, and environmental modeling. Beyond these theoretical achievements, Professor Zong has authored over 230 SCI-indexed papers and several specialized monographs addressing complex topics such as underwater explosion modeling, isolated water waves, and bubble dynamics. His research has been incorporated into practical marine engineering solutions and serves as a foundation for ongoing advancements in computational methods and ocean systems design. His body of work demonstrates consistent innovation, scientific rigor, and global relevance, making him a strong candidate for recognition under the Best Researcher Award.

Profiles : Scopus | Google Scholar

Featured Publications

Liu, M. B., Liu, G. R., Lam, K. Y., & Zong, Z. (2003). Smoothed particle hydrodynamics for numerical simulation of underwater explosion. Computational Mechanics, 30(2), 106–118. Cited by: 370.

Liu, M. B., Liu, G. R., Zong, Z., & Lam, K. Y. (2003). Computer simulation of high explosive explosion using smoothed particle hydrodynamics methodology. Computers & Fluids, 32(3), 305–322. Cited by: 324.

Zong, Z., & Zhang, Y. (2009). Advanced differential quadrature methods. Chapman and Hall/CRC. Cited by: 259.

Chen, Z., Zong, Z., Liu, M. B., Zou, L., Li, H. T., & Shu, C. (2015). An SPH model for multiphase flows with complex interfaces and large density differences. Journal of Computational Physics, 283, 169–188. Cited by: 257.

Zhang, Y. Y., Wang, C. M., Duan, W. H., Xiang, Y., & Zong, Z. (2009). Assessment of continuum mechanics models in predicting buckling strains of single-walled carbon nanotubes. Nanotechnology, 20(39), 395707. Cited by: 155.

 

 

Nashwan Ali | Electrochemical Sensor | Editorial Board Member

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Assist. Prof. Dr. Nashwan Ali | Electrochemical Sensor | Editorial Board Member

Research Scientist at University of Samarra | France

Assist. Prof. Dr. Nashwan Ali is a highly capable and multidisciplinary researcher whose strong expertise in electrochemistry, analytical chemistry, and advanced material characterization positions him as an excellent candidate for an Editorial Board Member role. His research spans electrochemical activity mapping, electrocatalysis, electroanalysis, green analytical methodologies, and spectrophotometric innovations, with applications across pharmaceuticals, environmental monitoring, petroleum chemistry, nanomaterials, and water quality assessment. His publication portfolio demonstrates consistent scientific productivity, contributing 13 indexed documents with 40 citations and an h-index of 4 in Scopus, reflecting steady scholarly influence and research visibility. Dr. Ali has co-authored impactful studies on ion-selective electrodes, oxidative coupling reactions, metal ion detection, nanoparticle-assisted sensing, composite materials, and electrochemical screening of Pt–CeO₂ gradient films, published across reputable journals including Sensors, Macromolecular Symposia, AIP Conference Proceedings, and International Journal of Advanced Chemical Research. His collaborative international work, particularly on electrocatalytic films and high-performance electrochemical sensors, showcases his ability to integrate analytical science with materials engineering-an essential quality for editorial decision-making in multidisciplinary domains. His experience supervising electrochemical mapping and developing green, cost-efficient determination techniques highlights his commitment to sustainable scientific approaches. Dr. Ali’s broad methodological command-ranging from cyclic voltammetry and SECM to HPLC, GC-FID, UV-Vis spectroscopy, and nanoparticle-based assays-equips him with the critical evaluation skills required to assess complex manuscripts. His research breadth, publication quality, and demonstrated peer-reviewed contributions make him highly suitable for an Editorial Board position, where analytical expertise, scientific judgment, and cross-disciplinary insight are essential.

Profiles : Scopus | ORCID

Featured Publications

Guesmi, S., Ali, N. H., Missaoui, N., Aloui, Z., Mabrouk, C., Martinez, C. C., Echouchene, F., Barhoumi, H., Jaffrezic-Renault, N., & Kahri, H. (2025). High-performance ZIF-7@PANI electrochemical sensor for simultaneous trace cadmium and lead detection in water samples: A Box–Behnken design optimization approach. Sensors.

Dawood, N. H., & Ali, N. H. (2022). Spectrophotometric determination of captopril in pharmaceutical formulations based on ion-pair reaction with the Red Congo. Journal of Pharmaceutical Negative Results.

Dawood, N. H., & Ali, N. H. (2022). Synthesis and characterization of some new indazolone and carbohydrazide derivatives from azachalcones. Journal of Pharmaceutical Negative Results.

Ali, N. H., Khalaf, A. A., Imran, N. A., Abdul Sattar, O. D., Ismail, M. K., & Ibrahim, A. T. (2020). Determination of loperamide HCl in pharmaceutical preparations using modified ion selective electrode. Systematic Reviews in Pharmacy.

Asker, M. M., Hassan, O. S., & Ali, N. H. (2020). Determination of metoclopramide in pharmaceutical commercial using flow injection chemiluminescence technique. Systematic Reviews in Pharmacy.

Hamza Kahri | Porous Materials | Editorial Board Member

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Dr. Hamza Kahri | Porous Materials | Editorial Board Member

Senior Research Scientist at Poitiers University | France

Dr. Hamza Kahri is a materials chemist whose research integrates metal–organic frameworks (MOFs), nanomaterials, electrochemistry, and catalytic hydrogen generation, with a strong focus on sustainable energy applications. His work centers on designing and optimizing advanced nanostructured catalysts for hydrogen production from chemical hydrides, water splitting, and biomass-derived substrates, contributing to cleaner and more efficient energy conversion pathways. He has developed high-surface-area MOFs such as ZIF-8 and ZIF-67, as well as MOF-derived carbon and metal oxide composites, applying them to gas adsorption, pollutant removal, photocatalysis, and electrochemical sensing. In analytical electrochemistry, he has advanced MOF–polymer hybrids and bimetallic nanoparticle-based sensor platforms for the detection of heavy metals, glucose, dopamine, urea, and various environmental and biological analytes, demonstrating both methodological innovation and practical relevance. His publications appear in reputable journals including Nano Research, Separation and Purification Technology, Microporous and Mesoporous Materials, Electrochimica Acta, and the Journal of the Electrochemical Society, reflecting consistent scholarly contribution and citation visibility. With approximately 36 peer-reviewed publications and an estimated Scopus citation 569 with an h-index of 14 he has established a solid research footprint across materials chemistry, catalysis, and environmental engineering. Additionally, his role as a reviewer for high-impact journals in hydrogen energy, nanomaterials, and electrochemical engineering underscores his academic reliability and editorial-level judgment. Collectively, his interdisciplinary expertise, publication record, and reviewing experience position him as a strong and capable candidate for an Editorial Board Member role in journals aligned with materials science and sustainable energy research.

Profiles : Scopus | ORCID | Google Scholar

Featured Publication

Kahri, H., Sevim, M., & Metin, Ö. (2017). Enhanced catalytic activity of monodispersed AgPd alloy nanoparticles assembled on mesoporous graphitic carbon nitride for the hydrolytic dehydrogenation of ammonia borane. Nano Research, 10(5), 1627–1640.

Badri, A., Slimi, S., Guergueb, M., Kahri, H., & Mateos, X. (2021). Green synthesis of copper oxide nanoparticles using Prickly Pear peel fruit extract: Characterization and catalytic activity. Inorganic Chemistry Communications, 134, 109027.

Missaoui, N., Kahri, H., & Demirci, U. B. (2022). Rapid room-temperature synthesis and characterizations of high-surface-area nanoparticles of zeolitic imidazolate framework-8 (ZIF-8) for CO₂ and CH₄ adsorption. Journal of Materials Science, 57(34), 16245–16257.

Ahmadipour, M., Bhattacharya, A., Sarafbidabad, M., Sazali, E. S., Ghoshal, S. K., … & Kahri, H. (2024). CA19-9 and CEA biosensors in pancreatic cancer. Clinica Chimica Acta, 554, 117788.

Missaoui, M. A. N., Chrouda, A., Kahri, H., Gross, A. J., … & Mohammad (2023). PEG-templated synthesis of ultramicroporous n-ZIF-67 nanoparticles with high selectivity for the adsorption and uptake of CO₂ over CH₄ and N₂. Separation and Purification Technology.

Jei Pil Wang | Extraction of Rare Earth Elements | Editorial Board Member

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Prof. Jei Pil Wang | Extraction of Rare Earth Elements | Editorial Board Member

Professor at Pukyong National University | South Korea

Professor Jei-Pil Wang is a highly accomplished researcher in metallurgical engineering, recognized for his strong contributions to extractive metallurgy, chemical metallurgy, powder fabrication, and sustainable recycling processes. His scholarly influence is evident through 781 citations, 126 published documents, and an h-index of 13 in Scopus, reflecting a career marked by steady research productivity and global academic engagement. His work advances key areas such as metallurgical reaction mechanisms, thermochemical behavior, and process optimization, offering important insights into improving metal extraction routes and developing efficient powder fabrication methods. A significant portion of his research focuses on environmentally conscious recycling technologies, aligning with modern demands for resource sustainability and industrial waste reduction. His publications demonstrate a balanced integration of experimental rigor, analytical interpretation, and practical applicability, making his research valuable both to academia and industry. Professor Wang’s studies often bridge theoretical metallurgical principles with real-world processing challenges, contributing to technological advancements that enhance operational efficiency and environmental compliance. His body of work reflects a commitment to scientific clarity, methodological precision, and research relevance-qualities that are essential for maintaining editorial standards in high-quality journals. His ability to evaluate complex metallurgical problems, combined with a demonstrated record of producing impactful, peer-reviewed research, positions him strongly for responsibilities such as manuscript assessment, publication guidance, and strategic editorial decision-making. Given his experience, citation strength, and multidisciplinary research alignment, he is highly suitable for serving as an Editorial Board Member in journals focused on metallurgy, materials science, and sustainable metallurgical process development.

Profiles : Scopus | ORCID

Featured Publications

Urtnasan, E., Kim, C.-J., Chung, Y.-J., & Wang, J.-P. (2025). Selective recovery of rare earth elements from electric motors in end-of-life vehicles via copper slag for sustainability. Processes.

Lee, H., & Wang, J.-P. (2025). Design and implementation of a fire-responsive cooling–suppression integrated system for mitigating fire risks in data-center GPU servers. International Journal of Innovative Research and Scientific Studies.

Yeo, Y.-H., & Wang, J.-P. (2025). A study on freezing technology for the safe storage and transportation of spent lithium-ion batteries. International Journal of Innovative Research and Scientific Studies.

Jung, S.-H., Jung, J.-M., & Wang, J.-P. (2025). Development of a discharge-free pre-treatment device for spent lithium-ion batteries under an inert atmosphere. International Journal of Innovative Research and Scientific Studies.

Park, Y. S., & Wang, J.-P. (2025). Effect of metal borides on the hardness and wear of STD11 steel. International Journal of Innovative Research and Scientific Studies.

 

Hongyun Zhang | Icephobic Materials | Best Researcher Award

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Prof. Hongyun Zhang | Icephobic Materials | Best Researcher Award

Professor at Kaili University | China

Dr. Hongyun Zhang is a materials and surface-engineering researcher whose work focuses on the thermodynamic and microstructural design of superhydrophobic and ice-phobic surfaces, generating a coherent body of scholarship that has earned 270 citations, 19 publications, and a Scopus h-index of 9. His studies analyse the physics underlying wetting behaviour on engineered metallic substrates, using thermodynamic modelling to map relationships between surface morphology, adhesion work, and stability of wetting states. A central contribution of his research is the development of pillar-based microstructural models that explain how hierarchical roughness controls free-energy barriers, contact-angle hysteresis, and transitions between Cassie–Baxter and Wenzel states. This modelling framework not only clarifies the energetics of water-repellent surfaces but also guides rational design of self-cleaning and drag-reducing coatings. Dr. Zhang extends these principles into ice-phobicity by computing icing delay times and evaluating how micro-scale geometry reduces ice adhesion and enhances surface robustness under sub-zero conditions. His work employs a blend of theoretical analysis, computational modelling, and applied surface engineering, providing quantitative design tools for improving performance of metal-based components in aviation, transportation, energy infrastructure, and environmental protection systems. Across his publications, he maintains a strong emphasis on linking microstructure manipulation with measurable functional outcomes, contributing both conceptual clarity and practical direction to the advancement of surface physics and metallurgical materials engineering. His cumulative output demonstrates consistent impact, a focused research niche, and a meaningful contribution to the development of advanced hydrophobic and anti-icing technologies.

Profiles : Scopus | ORCID

Featured Publlications

Qin, Y., Zhang, H., Marlowe, N. M., & Chen, W. (2016). Evaluation of human papillomavirus detection by Abbott m2000 system on samples collected by FTA Elute Card in a Chinese HIV-1 positive population. Cited by 17

Zhang, H. (2025). Selection of second step micro-morphology for anti-icing surfaces based on icing time. Applied Surface Science. Cited by 4

Zhang, H., Yang, Y. L., Pan, J. F., & Zhang, X. K. (2018). Compare study between icephobicity and superhydrophobicity. Cited by 29

Zhang, H., Yang, Y. L., Pan, J. F., & Yang, J. (2018). Study for critical roughness based on interfacial energy. Cited by 8

Zhao, L., Wang, D., Zhang, H., & Zhi, H. (2016). Fine mapping of the RSC8 locus and expression analysis of candidate SMV resistance genes in soybean.  Cited by 28

Xulong Ren | Surface Treatment | Best Researcher Award

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Mr. Xulong Ren | Surface Treatment | Best Researcher Award

Guilin University of Electronic Technology | China

Mr. Xulong Ren is a developing metallurgical researcher whose work centers on high-energy beam surface treatment and microstructural modification of metallic materials, with particular emphasis on scanning electron beam polishing, in situ alloying, and beam-induced strengthening mechanisms. His research advances the understanding of temperature field behaviour, energy density optimization, and microstructural evolution during electron beam processing of alloys such as TC4, contributing to improved surface morphology, enhanced mechanical properties, and more precise control of material behaviour under high-energy input. He has produced a growing body of scientific work comprising 22 research documents, supported by 99 citations, and he maintains a Scopus h-index of 6, reflecting his emerging influence within the field. His publications document experimental and simulation-based approaches to optimize beam parameters, analyze rotational and radial thermal gradients, and investigate the microstructural responses of metals subjected to advanced surface treatment techniques. Through involvement in funded projects such as the Guangxi Natural Science Foundation and collaborations on national research initiatives, he has contributed to methodological improvements and innovative processing strategies for electron beam–assisted material modification. His work also includes analysis of beam–material interactions, ceramic–metal interface strengthening, and the design of polishing models for precision surface engineering. His contributions extend to research on nanostructured material polishing mechanisms and scanning beam fusion effects, reflecting a consistent focus on advancing industrially relevant metal surface engineering techniques. His expanding publication record, combined with ongoing research activity, positions him as a promising and impactful researcher in metallurgical process innovation.

Profile : Scopus

Featured Publications

Li, X., Yang, J., Ren, X., Song, J., Long, F., Qiu, M., Li, Y., & Su, Y. (2025). Temperature field simulation and experimental investigation for column-faced 45 steel via ultrafast electron beam scanning. Surface and Coatings Technology. (Cited: 4)

Li, X., Yang, J., Ren, X., Song, J., Long, F., Qiu, M., & Su, Y. (2025). Eutectic resolidification and ultrafast self-quenching of the microstructure in the surface layer of high-speed steel by scanning electron beam treatment. Vacuum. (Cited: 1)

Li, X., Yang, J., Ren, X., Song, J., Long, F., Qiu, M., Li, Y., & Su, Y. (2026). Analysis and experimental verification of the temperature field model for dynamic defocus electron beam processing of TC4 titanium alloy surfaces. International Journal of Thermal Sciences, 220(B).

Ren, X., Huang, X., Li, X., & Gao, S. (2025). Exploring the effect of beam current on the microstructure and properties of Vc/Ni alloying layer on 40Cr surface through electron beam surface alloying. Preprint.

Wei, D., Yang, F., Sui, X., Mo, Z., & Ren, X. (2024). Surface microstructure evolution and enhanced properties of Ti-6Al-4V using scanning electron beam. International Journal of Heat and Mass Transfer. (Cited: 1)

Lingyu Ge | Gel Chemistry | Best Researcher Award

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Mr. Lingyu Ge | Gel Chemistry | Best Researcher Award

Shandong University of Aeronautics | China

Mr. Lingyu Ge is an emerging materials scientist whose research focuses on the design and synthesis of cellulose-modified amphiphilic polymer hydrogels with advanced fire-preventive and extinguishing properties. His work bridges polymer chemistry and metallurgical materials engineering, emphasizing the relationship between molecular structure and macroscopic performance in functional materials. Through meticulous experimentation, he optimized polymer–crosslinker compositions to achieve hydrogels with superior adsorption capacity, mechanical strength, and thermal resilience. His studies further verified the material’s efficiency in flame suppression using carbon block extinguishing tests, confirming its practical potential in next-generation fire safety technologies. Lingyu Ge has made significant contributions to the development of sustainable, high-performance gel-based materials. His research continues to advance the field of metallurgical and functional material innovations through a strong commitment to safety, sustainability, and scientific excellence.

Profile : ORCID

Featured Publications

Ge, L., & Xu, B. (2025, November 10). Self-healing fire prevention and extinguishing hydrogel derived from carboxymethyl cellulose-modified amphiphilic copolymers. Gels.

Ge, L., & Xu, B. (2025, August 22). Optimization analysis and performance study of amphiphilic polymer hydrogel gelation. Frontiers in Science and Engineering.

Aamir Saghir | Statistical Process Control | Best Researcher Award

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Dr. Aamir Saghir | Statistical Process Control | Best Researcher Award

Associate professor at Mirpur University of Science and Technology | Pakistan

Dr. Aamir Saghir, Associate Professor at Mirpur University of Science and Technology (MUST), Pakistan, is recognized for his outstanding work in statistical quality control, probability modeling, and industrial data analytics. His research primarily focuses on developing flexible, robust, and Bayesian control charts for process monitoring in both univariate and multivariate environments. With 49 publications, 567 citations, and an h-index of 15 (Scopus), Dr. Saghir’s contributions are well-established in the international scientific community. He has published extensively in high-impact journals, including Computers & Industrial Engineering, Quality and Reliability Engineering International, Communications in Statistics, and Applied and Computational Mathematics. His collaborative research extends globally, involving advanced modeling for reliability analysis, environmental statistics, and the integration of machine learning with statistical monitoring. His co-authored book, “Introduction to Statistical Process Control” (John Wiley & Sons, 2020), serves as a reference for modern control chart design and applications. Dr. Saghir’s scholarly output demonstrates a balance of theoretical innovation and practical relevance, influencing diverse fields such as manufacturing, environmental studies, and data-driven decision-making. Through supervision of postgraduate students and contributions to academic boards, he has fostered research excellence in Pakistan and abroad. His sustained research impact and leadership affirm his suitability for the Best Researcher Award.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Saghir, A., Khadim, A., & Lin, Z. (2017). The Maxwell length-biased distribution: Properties and estimation.Journal of Statistical Theory and Practice, 11(1), 26–40. Citation: 24

Saghir, A., Ahmad, L., Aslam, M., & Jun, C. H. (2019). A EWMA control chart based on an auxiliary variable and repetitive sampling for monitoring process location. Communications in Statistics–Simulation and Computation, 48(7), 2034–2045. Citation: 23

Ahmad, I., Abbas, A., Saghir, A., & Fawad, M. (2016). Finding probability distributions for annual daily maximum rainfall in Pakistan using linear moments and variants. Polish Journal of Environmental Studies, 25(3), 925–937. Citation: 23

Saghir, A. (2015). Phase-I design scheme for Xˉ\bar{X}-chart based on posterior distribution. Communications in Statistics–Theory and Methods, 44(3), 644–655. Citation: 22

Hu, X. L., Zhang, S. Y., Zhang, J., & Saghir, A. (2023). Efficient CUSUM control charts for monitoring the multivariate coefficient of variation. Computers & Industrial Engineering, 179, 109159. Citation: 15

Fatemeh Allahyari | Nano Particles | Women Researcher Award

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Ms. Fatemeh Allahyari | Nano Particles | Women Researcher Award

Malek Ashtar University of Technology | Iran

Ms. Fatemeh Allahyari’s research focuses on the design, synthesis, and application of polymer-based nanocomposites and functional materials with emphasis on medicinal chemistry, catalyst development, and industrially relevant resins. Her experimental program covers metal–organic framework incorporation into poly(ether-imide) networks, surface modification of inorganic nanoparticles for reinforced polymer matrices, and development of magnetically recoverable catalytic systems exemplified by zinc-polyurea-formaldehyde immobilized on magnetic nanoparticles. She investigates processing-structure-property relationships in additively manufactured polymers, optimizing FDM/FFF parameters to enhance tensile strength and impact resistance of PLA and PLA/carbon nanotube composites, and formulates empirical and optimization models for GFRP mechanical and electromagnetic performance. Her materials engineering contributions include sintering optimization for W-Cu nano-composites to improve compression strength, impact resistance, hardness, and corrosion behavior, alongside studies on aluminum-copper hybrid joints produced by friction stir welding and brazing aimed at combined mechanical and electrical performance. She integrates computational and experimental approaches in studies predicting additive effects (for example β-cyclodextrin ester additives in PVC) and pursues safer polymer formulations through functional nanoparticle additives. Peer-reviewed outputs include journals such as Journal of Molecular Structure, Research on Chemical Intermediates, Journal of Materials Science: Materials in Electronics, Polymer Engineering & Science, and Polymer Bulletin. Scopus metrics summarizing her research footprint: 55 citations; Documents indexed: 8; h-index: 4. She actively pursues collaborative projects with industry partners to scale formulations, improve material safety, and incorporate sustainable feedstocks, thereby advancing translational research and enabling rapid deployment of improved polymer technologies and inclusive mentorship.

Profiles : Scopus | ORCID

Featured Publications

Talei-Fard, E., Parsa, H., Afshari, M., Allahyari, F., Samadi, M. R., & Afshari, H. (2024). Design and optimization of mechanical and electromagnetic properties of GFRP composite. Journal of Materials Science: Materials in Electronics.

Samadi, M. R., Zeynali, E., Allahyari, F., Salahshorrad, E., Zangeneh-Madar, K., & Afshari, M. (2024). Optimizing the sintering process parameters for simultaneous improvement of the compression strength, impact strength, hardness and corrosion resistance of W–Cu nanocomposite. Modern Physics Letters B.

Afshari, H., Taher, F., Alavi, S. A., Afshari, M., Samadi, M. R., & Allahyari, F. (2024). Studying the effects of FDM process parameters on the mechanical properties of parts produced from PLA using response surface methodology. Colloid and Polymer Science.

Shabanian, M., Khaleghi, M., Allahyari, F., Attar, F., Ahmadi, H. R., Roohani, M., Seidi, F., Khonakdar, H. A., & Wagenknecht, U. (2021). Tannic acid-modified tin oxide nanoparticle and aromatic polyamide: From synthesis to their application for preparation of safe p-PVC. Polymer Bulletin.

Raeisi, A., Allahyari, F., Faghihi, K., Hosseini-Ghazvini, S. M. B., Khaleghi, M., Seidi, F., & Shabanian, M. (2020). A complete description on effect of β-cyclodextrin-ester as a bio-based additive for preparation of safe PVC: From synthesis to computational study. Materials Today Communications.