Shabnam Ahmadi | Environmental Health | Editorial Board Member

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Dr. Shabnam Ahmadi | Environmental Health | Editorial Board Member

Dr. Shabnam Ahmadi | Tarbiat Modares University | Iran

Dr. Shabnam Ahmadi is an accomplished environmental researcher whose work centers on advanced water and wastewater treatment technologies, with a strong emphasis on adsorption, advanced oxidation processes, nanomaterial synthesis, and pollutant degradation. Her extensive research output spans high-impact studies on removing pharmaceuticals, dyes, heavy metals, fluoride, chloramphenicol, aniline, nitrate, arsenic, biogenic amines, and other emerging contaminants from industrial and municipal effluents. She has contributed significantly to the development and optimization of novel adsorbents, including LaFeO₃ nanoparticles, graphene quantum dots, zero-valent iron composites, nickel oxide, MgO-based nanomaterials, P-γ-Fe₂O₃ nanostructures, rare-earth oxides, and green-synthesized materials, frequently applying kinetic, equilibrium, thermodynamic, and modeling approaches such as RSM, ANN, and GA. Her collaborative reviews and research articles explore sustainable, cost-effective remediation pathways using sonochemical, sonoelectrochemical, peroxydisulfate-enhanced, hydrothermal, and combined oxidation–adsorption systems for tackling recalcitrant pollutants. Dr. Ahmadi’s work extends to environmental health, where she has assessed air quality impacts such as PM10 exposure, and to food safety through studies on microbial contamination and biogenic amine formation. She has co-authored influential reviews on treatment strategies for acid mine drainage, dye-laden wastewater, ciprofloxacin removal, and novel green adsorbents, contributing to scientific advancements in environmental protection. Her multidisciplinary collaborations across environmental chemistry, materials science, microbiology, and process engineering highlight her role in shaping innovative, scalable, and sustainable solutions for water purification and pollution control, positioning her research as an important contribution to global efforts aimed at cleaner water resources and safer ecosystems.

Profile: Scopus | ORCID

Featured Publications

Falyouna, O., Maamoun, I., Ghosh, S., Malloum, A., Othmani, A., Eljamal, O., Amen, T., Oroke, A., Bornman, C., Ahmadi, S., Dehghani, M. H., Mahvi, A. H., Nasseri, S., Tyagi, I., & Koduru, J. R. (2022). Sustainable technologies for the removal of chloramphenicol from pharmaceutical industries effluent: A critical review. Journal of Molecular Liquids.

Akpomie, O., Ejechi, B. O., Banach, A. M., Adewuyi, I., Ayobola, E. D., Akpomie, K. G., Ghosh, S., & Ahmadi, S. (2022). Biogenic amine production from processed protein-based foods contaminated with Escherichia coli and Enterococcus faecalis. Journal of Food Science and Technology.

Ghosh, S., Al Sharify, Z. T., Maleka, M. F., Onyeaka, H., Maleke, M., Malloum, A., Godoy, L., Meskini, M., Rami, M. R., Ahmadi, S., Al Najjar, S. Z., Ahmed, S. M., & Dehghani, M. H. (2022). Propolis efficacy on SARS-COV viruses: A review on antimicrobial activities and molecular simulations. Environmental Science and Pollution Research.

Ghosh, S., Malloum, A., Bornman, C., Othmani, A., Osagie, C., Kashitarash, Z., Khanday, W., Ahmadi, S., & Dehghani, M. (2022). Novel green adsorbents for removal of aniline from industrial effluents: A review. Journal of Molecular Liquids.

Ghosh, S., Malloum, A., Igwegbe, C., Ighalo, J. O., Ahmadi, S., Dehghani, M., Othmani, A., Gökkuş, Ö., & Mubarak, N. (2022). New-generation adsorbents for the removal of fluoride from water and wastewater: A review. Journal of Molecular Liquids.

Hossein Mahmoudi Chenari | Carbon Composite | Editorial Board Member

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Dr. Hossein Mahmoudi Chenari | Carbon Composite | Editorial Board Member

Faculty Member | Guilan University | Iran

Dr. Hossein Mahmoudi Chenari is a dedicated materials scientist whose research focuses on the design, synthesis, characterization, and application of nanostructured materials and functional thin films. His work spans a broad range of advanced materials, including metal oxides, composite systems, carbon fibers, two-dimensional fibers, nanofibers, and semiconductor devices. He has expertise in optoelectronic materials, gas sensors, photodetectors, nonlinear optical structures, and semiconductor device physics, with strong command of C–V, I–V, thermal evaporation, electrospinning, UV/Vis photodetector mechanisms, and complex impedance spectroscopy. His research contributions emphasize the interplay between microstructure, electronic behavior, and device performance, enabling the development of improved sensing platforms and high-efficiency photonic and electronic components. Dr. Chenari has produced impactful publications across high-visibility journals, including a comprehensive study on the effect of carbonization temperature on the physical and chemical properties of carbon fibers, published in Scienzinc tific Reports, which advances understanding of thermal processing and material optimization. His work on magnesium-ferrite nanofibers, published in the Journal of Magnetism and Magnetic Materials, explores Rietveld refinement, morphology, optical behavior, and magnetic properties relevant to multifunctional magnetic devices. Earlier studies in Current Applied Physics detail the dielectric response and electrical conductivity of Cu/nano-SnO₂ thick films as well as the ultrahigh dielectric constant observed in novel synthesized SnO₂ nanoparticle films, contributing significantly to dielectric material engineering. His research on titanium dioxide nanoparticles, published in Materials Research, provides insights into synthesis, X-ray line analysis, and chemical composition, highlighting his extensive capabilities in structural and optical characterization. Collectively, his work strengthens foundational knowledge and technological advancement in nanomaterials, electronic materials, and device-oriented material systems.

Profile: Google Scholar

Featured Publications

Shokrani Havigh, R., & Mahmoudi Chenari, H. (2022). A comprehensive study on the effect of carbonization temperature on the physical and chemical properties of carbon fibers. Scientific Reports, 12(1), 10704.

Ghazi, N., Chenari, H. M., & Ghodsi, F. E. (2018). Rietveld refinement, morphology analysis, optical and magnetic properties of magnesium-zinc ferrite nanofibers. Journal of Magnetism and Magnetic Materials, 468, 132–140.

Chenari, H. M., Golzan, M. M., Sedghi, H., Hassanzadeh, A., & Talebian, M. (2011). Frequency dependence of dielectric properties and electrical conductivity of Cu/nano-SnO₂ thick film/Cu arrangement. Current Applied Physics, 11(4), 1071–1076.

Chenari, H. M., Hassanzadeh, A., Golzan, M. M., Sedghi, H., & Talebian, M. (2011). Frequency dependence of ultrahigh dielectric constant of novel synthesized SnO₂ nanoparticles thick films. Current Applied Physics, 11(3), 409–413.

Chenari, H. M., Seibel, C., Hauschild, D., Reinert, F., & Abdollahian, H. (2016). Titanium dioxide nanoparticles: Synthesis, X-ray line analysis and chemical composition study. Materials Research, 19, 1319–1323.

Destayehu Durressa | Mechanical Design | Editorial Board Member

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Assist. Prof. Dr. Destayehu Durressa | Mechanical Design | Editorial Board Member

Assist. Prof. Dr. Destayehu Durressa | Bahir Dar Institute of Technology | Ethiopia

Assist. Prof. Dr. Destayehu Durressa is a dedicated researcher in mechanical and materials engineering, with a strong emphasis on structural damage assessment, composite material behavior, and mechanical system reliability. His work centers on understanding how defects, cracks, and impact-induced damage influence the performance and durability of engineering components, contributing to safer and more efficient industrial applications. His early research involved analyzing the effect of cracks on spur gears in heavy-duty automotive gearboxes, providing insight into failure mechanisms and performance degradation in mechanical power-transmission systems. Building on this foundation, he has advanced his investigations into composite materials, focusing particularly on the characterization and modeling of residual elastic properties in impact-damaged glass-fiber composites. His publication in Results in Engineering (2025) demonstrates his commitment to rigorous experimental evaluation and predictive modeling, offering valuable contributions to material performance assessment and structural integrity research. Dr. Durressa’s scholarly efforts reflect a broader motivation to develop engineering solutions that enhance safety and reliability across industries, addressing challenges related to mechanical fatigue, material degradation, and system longevity. His research approach integrates practical experimentation with analytical modeling, aiming to support the development of more resilient components for automotive, aerospace, and manufacturing applications. Through his ongoing work, he continues to contribute meaningful advancements to the understanding of damage mechanics and material behavior, helping shape future innovations in mechanical engineering and composite material technologies.

Profile: Scopus

Featured Publications

Durressa, D. (2025). Characterization and modeling of residual elastic properties of impact-damaged glass fiber composite. Results in Engineering.

 

Sivasamy Paulsamy | Mechanical Properties | Editorial Board Member

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Dr. Sivasamy Paulsamy | Mechanical Properties | Editorial Board Member

Associate Professor | PSR Engineering College | India

Dr. Sivasamy Paulsamy is a highly active researcher in the fields of thermal engineering, nanomaterials, and advanced energy storage systems, with a strong focus on thermal energy storage, phase change materials (PCMs), nanofluids, and solar energy-based storage technologies. His research contributions significantly advance heat transfer enhancement techniques, including the development of nano-enhanced PCMs, graphene- and CNT-based thermal systems, and composite materials engineered for efficient energy storage. With expertise spanning kinematics and dynamics of machinery, strength of materials, thermodynamics, heat and mass transfer, and finite element analysis, he integrates theoretical and experimental approaches to address challenges in next-generation thermal and mechanical systems. Dr. Paulsamy has authored impactful publications, including widely cited works on nano-enhanced PCMs, polymer composites with ZnO nanoparticles, metallic nanoparticle-embedded PCMs, and advanced thermal materials, contributing to over 340 Google Scholar citations with an h-index of 9. His software proficiency encompasses CFD (Fluent), ANSYS, Pro-E, AutoCAD, and SolidWorks, supporting his computational modeling and design research. He has actively participated in AICTE-sponsored training programs, faculty development initiatives, and international conferences on nanoscience, nanotechnology, and functional materials, reflecting his commitment to continuous knowledge advancement and scientific collaboration. In addition to his research activities, he has undertaken various professional responsibilities such as coordinating academic programs, organizing national and international conferences, managing laboratories, and facilitating technical workshops, thereby contributing substantively to the academic and scientific community.

Profile: Scopus | ORCID | Google Scholar

Featured Publications

Sivasamy, P., Harikrishnan, S., Imran Hussain, S., Devaraju, A., & Kalaiselvam, S. (2017). Improved performance of a newly prepared nano-enhanced phase change material for solar energy storage. Journal of Mechanical Science and Technology, 31(10), 4903–4910.

Sivasamy, P., Devaraju, A., & Harikrishnan, S. (2018). Review on heat transfer enhancement of phase change materials (PCMs). Materials Today: Proceedings, 5(6), 14423–14431.

Devaraju, A., Sivasamy, P., & Loganathan, G. B. (2020). Mechanical properties of polymer composites with ZnO nanoparticles. Materials Today: Proceedings, 22, 531–534.

Ayyasamy, L. R., Mohan, A., Rex, L. K., Sivakumar, V. L., Dhanasingh, S. V., … & Sivasamy, P. (2022). Enhanced thermal characteristics of CuO embedded lauric acid phase change material. Thermal Science, 26(2 Part B), 1615–1621.

Sivasamy, P., Harikrishnan, S., Imran Hussain, S., Kalaiselvam, S., … (2019). Improved thermal characteristics of Ag nanoparticles dispersed myristic acid as composite for low temperature thermal energy storage. Materials Research Express, 6(8), 085066.

Demmelash Mollalign Moges | Mathematics | Editorial Board Member

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Dr. Demmelash Mollalign Moges | Mathematics | Editorial Board Member

Dr. Demmelash Mollalign Moges | Hawassa University | Ethiopia

Dr. Demmelash Mollalign Moges is a dedicated researcher in the field of optimization, with extensive contributions to intuitionistic fuzzy systems, multi-objective decision models, and fractional programming. His work focuses on developing advanced mathematical frameworks that address complex real-world optimization challenges, particularly those involving uncertainty, multi-level decision structures, and competing objectives. He has produced influential research on intuitionistic fuzzy multi-objective linear fractional optimization, proposing new methods that have been successfully applied to agricultural land allocation and transportation systems. His studies extend to multi-objective multilevel programming, where he has introduced two-phase intuitionistic fuzzy goal programming approaches capable of handling hierarchical decision environments. Dr. Moges has also advanced the application of neutrosophic parameters within multilevel multi-objective fractional optimization, offering efficient algorithms that improve model robustness under indeterminate conditions. His contributions include compensatory intuitionistic fuzzy mathematical techniques for solving decentralized bi-level decision-making problems, broadening the applicability of fuzzy-based optimization in distributed systems. Beyond theoretical developments, he has collaborated on interdisciplinary research, including the design of an optimized YOLO NAS-based framework for real-time object detection, demonstrating his versatility and ability to apply analytical principles to modern computational challenges. His published works in leading journals such as Information Sciences, Journal of Computational Science, and Expert Systems with Applications highlight his consistent engagement with high-impact research that enhances the understanding and applicability of fuzzy optimization, multi-objective fractional models, and advanced decision-making methodologies. Through his continuous efforts, Dr. Moges contributes to shaping the evolving landscape of optimization theory and its practical implementation across diverse problem domains.

Profile: Scopus | ORCID | Google Scholar

Featured Publications

Moges, D. M., Mushi, A. R., & Wordofa, B. G. (2023). A new method for intuitionistic fuzzy multi-objective linear fractional optimization problem and its application in agricultural land allocation problem. Information Sciences, 625, 457–475.

Mollalign, D., Mushi, A., & Guta, B. (2022). Solving multi-objective multilevel programming problems using two-phase intuitionistic fuzzy goal programming method. Journal of Computational Science, 63, 101786.

Moges, D. M., & Wordofa, B. G. (2024). An efficient algorithm for solving multilevel multi-objective linear fractional optimization problem with neutrosophic parameters. Expert Systems with Applications, 257, 125122.

Moges, D. M., Wordofa, B. G., & Mushi, A. R. (2023). Solving multi-objective linear fractional decentralized bi-level decision-making problems through compensatory intuitionistic fuzzy mathematical method. Journal of Computational Science, 71, 102075.

Gupta, C., Gill, N. S., Gulia, P., Kumar, A., Karamti, H., & Moges, D. M. (2025). An optimized YOLO NAS based framework for realtime object detection. Scientific Reports, 15(1), 32903.

Alper Bideci | Building Materials | Editorial Board Member

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Assoc. Prof. Dr. Alper Bideci | Building Materials | Editorial Board Member

Architecture | Düzce University | Turkey

Assoc. Prof. Dr. Alper Bideci is a leading researcher in construction materials, recognized for his extensive contributions to lightweight concrete technology, polymer-coated aggregates, sustainable building materials, and the performance optimization of cement-based composites. His scholarly work spans mechanical behavior, thermal performance, durability enhancement, fracture energy, shrinkage, creep, and microstructural characterization of advanced concretes, supported by experimental testing and image-processing-based evaluation methods. Dr. Bideci has published numerous high-impact articles in SCI-Expanded journals, including significant studies on polyester-coated pumice aggregates, fiber-reinforced calcium aluminate concrete under elevated temperatures, homogeneity assessment in EPS-integrated mortars, environmental performance of insulated façade panels using life cycle assessment, and the influence of hemp fibers, waste tyre additives, and polymer modifications on strength and fracture properties. His investigations have advanced understanding of eco-efficient composites, permeability control, color and structural homogeneity, and the integration of industrial by-products in construction materials. Dr. Bideci’s research additionally encompasses polymer coatings for lightweight aggregates, the structural behavior of self-compacting concretes containing waste materials, and performance assessments of historical brick and concrete systems through experimental methods. He has led and contributed to funded research projects on polymer-coated aggregates and historical building materials and has achieved substantial international recognition, with over 350 citations reflecting his global impact. His consistent achievements have been honored repeatedly with the Scientific Encouragement Awards of the Scientific and Technical Research Council of Turkey (TÜBİTAK), recognizing his sustained advancements in high-performance, durable, and sustainable construction materials.

Profile: Scopus | Google Scholar

Featured Publications

Bideci, A., Sallı Bideci, Ö., & Ashour, A. (2023). Mechanical and thermal properties of lightweight concrete produced with polyester-coated pumice aggregate. Construction and Building Materials, 394.

Sallı Bideci, Ö., Yilmaz, H., Gencel, O., Bideci, A., Çomak, B., & Nodehi, M. (2023). Fiber-reinforced lightweight calcium aluminate cement-based concrete: Effect of exposure to elevated temperatures. Sustainability, 15, 4722.

Çomak, B., Aykanat, B., Sallı Bideci, Ö., Bideci, A. (2022). Determination of homogeneity index of cementitious composites produced with EPS beads by image processing techniques. Computers and Concrete, 29, 107–115.

Çomak, B., Bideci, A., Aykanat, B., & Sallı Bideci, Ö. (2021). Determination of color homogeneity by image processing in cement-based mortars. Romanian Journal of Materials, 51, 552–557.

Yılmaz, E., Arslan, H., & Bideci, A. (2019). Environmental performance analysis of insulated composite facade panels using life cycle assessment (LCA). Construction and Building Materials, 202, 806–813.

Yuriy Sirenko | Cardiology | Editorial Board Member

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Prof. Dr. Yuriy Sirenko | Cardiology | Editorial Board Member

Prof. Dr. Yuriy Sirenko | National MD Strazhesko Institute of Cardiology, Clinical and Regenerative Medicine | Ukraine
Prof. Dr. Yuriy Sirenko is a leading figure in contemporary cardiology, recognized for his extensive contributions to arterial hypertension, pulmonary hypertension, and cardiovascular hemodynamics. As Head of the Department of Arterial Hypertensions at the National Scientific Center “M.D. Strazhesko Institute of Cardiology, Clinical and Regenerative Medicine,” he has shaped national and international approaches to hypertension research and treatment for more than three decades. His career encompasses major clinical, research, and administrative roles, including leadership of the Pulmonary Arterial Hypertension Center and serving as Chief Cardiologist and Senior Adviser to the Ukrainian Ministry of Public Health, where he played a central role in advancing large-scale hypertension prevention and treatment programs. Prof. Sirenko has been deeply engaged in global scientific collaboration through active involvement in the European Society of Cardiology, European Society of Hypertension, International Society of Hypertension, International Society of Vascular Health, American Society of Hypertension, and American Heart Association. He has contributed to several landmark ESC/ESH and ESC/ERS guidelines, which significantly influence cardiovascular clinical practice worldwide. As Editor-in-Chief of the Ukrainian Journal of Arterial Hypertension and a member of multiple editorial boards, he supports the dissemination of high-impact cardiovascular research. With more than 600 publications indexed in major scientific databases, his work spans primary and secondary hypertension, pulmonary vascular disease, heart failure, right heart catheterization, hemodynamic profiling, and both pharmacological and non-pharmacological therapeutic strategies. His scientific leadership has been recognized through national awards, including the State Prize in Science and Technology and the title Honored Medical Doctor of Ukraine, underscoring his lasting impact on cardiovascular medicine.

Profile: Scopus | ORCID | Google Scholar

Featured Publications

Mancia, G., Fagard, R., Narkiewicz, K., Redon, J., Zanchetti, A., Böhm, M., … Sirenko, Y. (2013). 2013 ESH/ESC Guidelines for the management of arterial hypertension. Arterial Hypertension, 17(2), 69–168.

Williams, B., Mancia, G., Spiering, W., Agabiti Rosei, E., Azzi, E., … Sirenko, Y. (2018). 2018 ESC/ESH Guidelines for the management of arterial hypertension. European Heart Journal, 39(33), 3021–3104.

Galiè, N., Humbert, M., Vachiery, J., Gibbs, S., Lang, I., … Sirenko, Y. (2015). 2015 ESC/ERS Guidelines for the diagnosis and treatment of pulmonary hypertension. European Respiratory Journal, 46, 903–975.

Knuuti, J., Wijns, W., Saraste, A., Capodanno, D., Barbato, E., … Sirenko, Y. (2019). 2019 ESC Guidelines for the diagnosis and management of chronic coronary syndromes. European Heart Journal, 40, 1–90.

Humbert, M., Kovacs, G., Hoeper, M. M., Badagliacca, R., Berger, R. M. F., Brida, M., … Sirenko, Y. (2022). 2022 ESC/ERS Guidelines for the diagnosis and treatment of pulmonary hypertension: Developed by the task force for the diagnosis and treatment of pulmonary hypertension of the European Society of Cardiology and the European Respiratory Society. European Heart Journal, 43(38), 3618–3731.

Abdulrahman Alhamzan | Biomass | Best Industrial Research Award

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Prof. Abdulrahman Alhamzan | Biomass | Best Industrial Research Award

Professor | Imam Mohammad ibn Saud Islamic University (IMSIU) | Saudi Arabia

Abdulrahman Ghonaim A. Alhamazani is a Saudi Arabian chemist and Full Professor in the Department of Chemistry at Al-Imam Muhammad Ibn Saud University in Riyadh, recognized for his extensive contributions to eco-friendly sustainable materials and circular economy research. He holds a Bachelor of Science and a Master of Science in Chemistry from King Saud University, and a PhD in Chemistry from West Virginia University, USA. With a career spanning academic, research, and administrative leadership, he has served as Vice-Dean for Academic Affairs, Vice-Dean for Development and Quality, Laboratories Manager, and Chair of Chemical Technology, playing a key role in academic accreditation, strategic planning, and curriculum advancement. His scientific work focuses on converting agricultural biomass and industrial waste into value-added products, including adsorbent materials for wastewater treatment, nanocellulose and biopolymer applications, and sustainable fertilizers from protein-rich waste sources, alongside investigations in electroanalytical chemistry and novel organic materials. Professor Alhamazani has received multiple funded research grants, collaborated internationally—including partnerships involving Stony Brook University—and contributed significantly to high-impact scientific publications and patents in nanocomposites and biomass-derived materials. He has presented his work at global conferences and participated in professional training in intellectual property, design thinking, project management, and academic quality assurance. Fluent in Arabic and English, he is an active member of the Saudi Chemical Society and the American Chemical Society. His career reflects a strong commitment to advancing green chemistry, strengthening research innovation, and supporting the development of sustainable industrial and environmental solutions in line with modern scientific and societal needs.

Profile: Google Scholar | Scopus

Featured Publications

El-Shamy, N. T., Alkaoud, A. M., Hussein, R. K., Ibrahim, M. A., & Alhamzani, A. G. (2022). DFT, ADMET and molecular docking investigations for the antimicrobial activity of 6, 6′-diamino-1, 1′, 3, 3′-tetramethyl-5, 5′-(4-chlorobenzylidene) bis [pyrimidine-2, 4-dione]. Molecules, 27(3), 620.

Alghamdi, S. K., Abbas, F., Hussein, R. K., & Alhamzani, A. G. (2023). Spectroscopic characterization (IR, UV-Vis), and HOMO-LUMO, MEP, NLO, NBO analysis and the antifungal activity for 4-bromo-N-(2-nitrophenyl) benzamide; using DFT modeling. Journal of Molecular Structure, 1271, 134001.

Shaaban, S., Abdou, A., Alhamzani, A. G., Abou-Krisha, M. M., & Al-Qudah, M. A. (2023). Synthesis and in silico investigation of organoselenium-clubbed Schiff bases as potential Mpro inhibitors for the SARS-CoV-2 replication. Life, 13(4), 912.

Deghady, A. M., Hussein, R. H., Alhamzani, A. G., & Mera, A. (2021). Density functional theory and molecular docking investigations of the chemical and antibacterial activities for 1-(4-hydroxyphenyl)-3-phenylprop-2-en-1-one. Molecules, 26, 3631.

Yousef, T. A., Alhamzani, A. G., Abou-Krisha, M. M., Kumar, C. B. P., Raghu, M. S., Prashanth, M. K., & Jeon, B. H. (2023). Experimental and theoretical examinations of triazole linked saccharin derivatives as organic corrosion inhibitors for mild steel in hydrochloric acid. Journal of Molecular Structure, 1275, 134603.

Huang, X., Hadi, P., Joshi, R., Alhamzani, A., & Hsiao, B. (2023). A comparative study of mechanism and performance of anionic and cationic dialdehyde nanocelluloses for dye adsorption and separation. ACS Omega, 8(8).

Alhamzani, A. G., Yousef, T. A., Abou-Krisha, M. M., Kumar, K. Y., Prashanth, M. K., Parashuram, L., Jeong, B. H., & Raghu, M. S. (2023). Fabrication of layered In2S3/WS2 heterostructure for enhanced and efficient photocatalytic CO2 reduction and various paraben degradation in water. Chemosphere, 322.

Yousef, T. A., Alhamzani, A. G., Abou-Krisha, M. M., Kanthimathi, G., Raghu, M. S., & Prashanth, M. K. (2023). Retracted: Synthesis, molecular docking study and anticancer activity of novel 1, 3, 4-oxadiazole derivatives as potential tubulin inhibitors. Heliyon, 9(2).

Touha Nazrun | Composite Materials | Best Researcher Award

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Mrs. Touha Nazrun | Composite Materials | Best Researcher Award

Mrs. Touha Nazrun | Western Sydney University | Australia

Mrs. Touha Nazrun is an emerging researcher in fire safety engineering whose work demonstrates strong scientific promise, technical depth, and consistent research productivity. Her role as a Casual Research Assistant at Western Sydney University involves conducting experimental studies on the application of developed intumescent coatings on aluminium sheets, ACP cladding panels, gypsum boards, and concrete materials, with a focus on enhancing fire resistance and evaluating material performance under high-temperature conditions. She has authored several peer-reviewed publications in reputable journals, including contributions to Sustainability, Progress in Organic Coatings, and Fire, covering topics such as sustainable biopolymer-based cladding materials, fire performance improvements of aluminium composite panels, and comprehensive reviews of intumescent coating formulations and manufacturing methods. Her conference paper on the fire behaviour of aluminium sheets coated with intumescent materials earned a Best Paper Award, underscoring the originality and impact of her research. She maintains an active research pipeline with submitted and ready-to-submit manuscripts addressing material characterization, polymer–mineral filler compositions, and the use of recycled silicon dioxide in coating systems. Her scientific contributions extend to practical fire safety advancements, sustainable material development, and performance evaluation of protective coatings, reflecting her commitment to solving real-world engineering challenges. Beyond research, she has participated in technical conferences, volunteered in professional events related to fire safety engineering, and engaged in community and organizational activities, demonstrating a strong service orientation alongside academic excellence. Her growing body of work positions her as a promising researcher contributing valuable knowledge to the fields of fire protection materials, sustainable cladding technologies, and applied fire safety engineering.

Profile:  Scopus | ORCID | Google Scholar | ResearchGate

Featured Publications

Nazrun, T., Hassan, M. K., Hossain, M. D., Ahmed, B., Hasnat, M. R., & Saha, S. (2024). Application of biopolymers as sustainable cladding materials: A review. Sustainability, 16(1), 27.

Nazrun, T., Hassan, M. K., Hasnat, M. R., Hossain, M. D., Ahmed, B., & Saha, S. (2025). A comprehensive review on intumescent coatings: Formulation, manufacturing methods, research development, and issues. Fire, 8(4), 155.

Nazrun, T., Hassan, M. K., Hasnat, M. R., Hossain, M. D., & Saha, S. (2025). Improving fire performance of solid aluminium and composite cladding panels incorporating intumescent coatings. Progress in Organic Coatings, 201, 109142.

Nazrun, T., Hassan, M. K., Hasnat, M. R., Hossain, M. D., & Saha, S. (2024). Comparative study on fire behaviour of solid aluminium sheets coated with intumescent materials. Proceedings of the International Conference on Fire Safety Engineering Research and Practice.

Sun Jae Yoo | Civil Engineering | FRP Engineering Excellence Award

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Dr. Sun Jae Yoo | Civil Engineering | FRP Engineering Excellence Award

Researcher | University of Illinois at Urbana-Champaign | United States

Dr. Sun-Jae Yoo is a leading researcher in advanced FRP engineering, with a strong focus on the structural performance, bond behavior, and durability of CFRP bars used in concrete systems under normal and extreme conditions. His work significantly advances understanding of helically ribbed CFRP bar bonding, development length, flexural behavior, and lap-splice mechanics in UHPC and UHPFRC matrices, providing crucial insights for enhancing structural safety and design efficiency. He has conducted extensive research on the residual bond behavior of CFRP and steel reinforcements after elevated-temperature exposure, contributing to improved fire-resilience strategies for modern infrastructure. Dr. Yoo’s research portfolio further includes development of smart strengthening techniques for fire-damaged concrete structures using hybrid FRP bars and advanced cementitious composites, alongside major contributions to CNT-reinforced lightweight high-strength concrete, DfMA-based modular bridge systems, and electrically conductive concretes for EMP protection. His publications in high-impact journals highlight innovative findings on microstructural enhancement, creep reduction, and structural performance gains enabled by CNT and FRP technologies. Through participation in multiple national research programs, he has advanced solutions for zero-corrosion CFRP reinforcement, sustainable shelter-in-place systems, and next-generation composite materials. His achievements, supported by multiple awards for outstanding papers and research excellence, demonstrate his leadership in developing resilient, high-performance FRP-integrated structural systems.

Profile:  ORCID  |  Google Scholar

Featured Publications

  • Yoo, S. J., Hong, S. H., & Yoon, Y. S. (2023). Bonding behavior and prediction of helically ribbed CFRP bar embedded in ultra-high-performance concrete (UHPC). Case Studies in Construction Materials, 19, e02253.

  • Yoo, S. J., Kim, Y. H., Yuan, T. F., & Yoon, Y. S. (2022). Evaluation of residual bond behavior of CFRP and steel bars embedded in UHPC after exposure to elevated temperature. Journal of Building Engineering, 56, 104768.

  • Hong, S. H., Choi, J. S., Yoo, S. J., Yoo, D. Y., & Yoon, Y. S. (2024). Reinforcing effect of CNT on the microstructure and creep properties of high-strength lightweight concrete. Construction and Building Materials, 428, 136294.

  • Yoo, S. J., Hong, S. H., Yoo, D. Y., & Yoon, Y. S. (2024). Flexural bond behavior and development length of ribbed CFRP bars in UHPFRC. Cement and Concrete Composites, 146, 105403.

  • Hong, S. H., Choi, J. S., Yoo, S. J., & Yoon, Y. S. (2023). Structural benefits of using carbon nanotube reinforced high-strength lightweight concrete beams. Developments in the Built Environment, 16, 100234.