Hyoungsoo Kim | Scientific Breakthroughs | Research Excellence Award

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Prof. Hyoungsoo Kim | Scientific Breakthroughs | Research Excellence Award

KAIST | South Korea

Dr. Hyoungsoo Kim is a Professor of Mechanical Engineering at KAIST and Principal Investigator of the Fluid & Interface Laboratory, where his research sits at the intersection of experimental fluid mechanics, soft-matter hydrodynamics, and interfacial instabilities. His work uncovers novel physicochemical phenomena across nano- to macro-scales using advanced optical diagnostics, custom experimental platforms, theoretical modeling, scaling laws, and data-driven analysis. He has made seminal contributions to Marangoni flows, evaporation-driven patterning, liquid-metal systems, and interfacial transport, with applications spanning uniform coatings, semiconductor processing, micro/nanoparticle removal, flexible electronics, metamaterials, and plasma control.

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Julie Leignadier | Scientific Breakthroughs | Research Excellence Award

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Dr. Julie Leignadier | Scientific Breakthroughs | Research Excellence Award

Lucas Meyer Cosmetics by Clariant | France

Dr. Julie Leignadier is an accomplished immunologist and biologist with extensive experience in both fundamental research and applied biotechnology. She earned her PhD in Montreal, where over five years she studied the mechanisms underlying the strength of the memory T cell receptor, gaining deep expertise in adaptive immunity and molecular signaling. Her doctoral work provided critical insights into immune memory and receptor dynamics, establishing a solid foundation for her future research. Following her PhD, Dr. Leignadier spent eight years as a postdoctoral researcher in leading Swiss and French laboratories, where she led multiple projects at the intersection of immunology and oncology. During this period, she honed her skills in experimental design, cellular and molecular biology, and translational research, contributing to high-impact publications and fostering international collaborations. Her work in cancer immunology emphasized understanding complex immune responses and translating fundamental findings into potential therapeutic strategies. In 2020, Dr. Leignadier joined Lucas Meyer Cosmetics by Clariant as Head of the Biology Laboratory, where she oversees the development of innovative and sustainable active ingredients for the cosmetics industry. In this role, she leverages her expertise in cellular biology and immunology to create biologically effective compounds that meet both consumer needs and environmental sustainability standards. Her leadership drives research initiatives that bridge cutting-edge science with industrial application, positioning the company at the forefront of sustainable cosmetic innovation. Dr. Leignadier remains committed to integrating scientific excellence with industrial innovation, applying her deep knowledge of immunology and molecular biology to deliver products that are both effective and environmentally responsible. Her career reflects a unique blend of academic rigor and practical expertise, making her a recognized leader in biologically informed cosmetic research.

 


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Xingwang Bian | Scientific Breakthroughs | Research Excellence Award

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Mr. Xingwang Bian | Scientific Breakthroughs | Research Excellence Award

Mr. Xingwang Bian | Beijing Vacuum Electronics Research Institute | China

Xingwang Bian is a senior-level researcher at the Beijing Vacuum Electronics Research Institute, working in the domain of vacuum electronics and high-frequency device engineering. He specializes in the research, design, and experimental development of traveling-wave tubes (TWTs) operating at millimeter-wave and terahertz (THz) frequencies — especially in the G-band. His work leverages advanced slow-wave structure designs, electron-beam systems, and optimized focusing/magnetics, aiming to push the power, bandwidth, and efficiency envelope for THz vacuum-electronic amplifiers.  Among his important contributions: he co-authored demonstration of a broadband continuous-wave G-band TWT providing multi-GHz bandwidth and tens of watts of output power — a promising step toward practical THz wireless communications and radar systems.  Bian has also been centrally involved in the development of pulsed G-band TWTs for radar applications, combining innovations in slow-wave structure (modified folded waveguide), high-current electron beams, and phase-velocity tapering to reach high output power levels (on the order of 100 W+ in pulsed operation) in a compact, vacuum-electronic device.  Through these efforts, Bian has helped advance what is arguably one of the leading THz-band vacuum-electronic technology pipelines from BVERI, contributing to both academic publications and applied-device development.  In sum: Bian is a specialized vacuum-electronics engineer/scientist whose expertise lies at the intersection of electromagnetic design, electron-beam physics, and high-frequency amplifier fabrication — with a clear emphasis on making high-power, wide-band, THz-band TWTs viable for radar, sensing, and communication applications.

Publication Profile

Scopus | ORCID

Featured Publications 

Bian, X., Pan, P., Du, X., Feng, Y., Li, Y., Song, B., & Feng, J. (2025). Design and experiment of modified folded waveguide slow wave structure for 60-W G-band traveling wave tube. IEEE Microwave and Wireless Technology Letters.

Bian, X., Pan, P., Xian, S., Yang, D., Zhang, L., Cai, J., & Feng, J. (2025). A G-band pulsed wave traveling wave tube for THz radar. Preprints.

Zhu, M., Cai, Y., Zhang, L., Zhang, J., Hua, B., Ma, K., Ding, J., Bian, X., et al. (2025). Surpassing kilometer-scale terahertz wireless communication beyond 300 GHz enabled by hybrid photonic–electronic synergy. Research Square.

Bian, X., Pan, P., Du, X., Song, B., Zhang, L., Cai, J., & Feng, J. (2024). Demonstration of a high-efficiency and wide-band 30-W G-band continuous wave traveling wave tube. IEEE Electron Device Letters.

Feng, Y., Bian, X., Song, B., Li, Y., Pan, P., & Feng, J. (2022). A G-band broadband continuous wave traveling wave tube for wireless communications. Micromachines

Seyyed Javad Hosseini-Vashan | Research Excellence | Research Excellence Award

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Assoc. Prof. Dr. Seyyed Javad Hosseini-Vashan | Research Excellence | Research Excellence Award

Assoc. Prof. Dr. Seyyed Javad Hosseini-Vashan | University of Birjand | Iran

Dr. Seyyed Javad Hosseini-Vashanis an Associate Professor of Animal Science at the University of Birjand, specializing in Poultry Science and Poultry Nutrition. With an academic path beginning with a diploma in Natural Sciences and progressing through B.Sc. and M.Sc. degrees in Animal and Poultry Science from the University of Birjand, followed by a Ph.D. in Poultry Science from Ferdowsi University of Mashhad, he has built a strong research portfolio in poultry nutrition, antioxidant strategies, heat-stress mitigation, feed additives, and improvement of poultry performance, immunity, lipid metabolism, skeletal health, intestinal morphology, and meat quality. His M.Sc. and Ph.D. dissertations focused on enriching egg yolk n-3 fatty acids and evaluating natural antioxidants in diets containing vegetable oils and tallow under heat stress in Arian broilers. Since joining academia in , Dr. Hosseini-Vashan has held key administrative roles as Head of the Animal Science Department and Head of the Animal Science Research Laboratory, and has served as Secretary of the First National Congress on Advances in Animal Sciences. He is an active member of several professional bodies including WPSA and the Iran Genetics Association. His teaching portfolio spans Poultry Production, Poultry Health, Nutrition, Biochemistry, Physiology, Diet Formulation, and Advanced Bioenergetics. He has authored numerous conference papers and peer-reviewed journal publications in prestigious Iranian and international journals, addressing nutritional interventions such as pomegranate peel, tomato pomace, turmeric, grape pomace, hempseed, nanoselenium, saffron petal extract, and functional feed additives in poultry and ostrich production systems. His research consistently emphasizes enhancing animal health and productivity under challenging environmental conditions, especially heat stress, and exploring natural, cost-effective, and sustainable dietary solutions for the modern poultry industry.

Profile: Google Scholar

Featured Publications

Hosseini-Vashan, S. J., Golian, A., & Yaghobfar, A. (2016). Growth, immune, antioxidant, and bone responses of heat stress-exposed broilers fed diets supplemented with tomato pomace. International Journal of Biometeorology, 60(8), 1183–1192.

Hosseini-Vashan, S. J., Golian, A., Yaghobfar, A., Zarban, A., Afzali, N., & … (2012). Antioxidant status, immune system, blood metabolites and carcass characteristic of broiler chickens fed turmeric rhizome powder under heat stress. African Journal of Biotechnology, 11(94), 16118–16125.

Safdari-Rostamabad, M., Hosseini-Vashan, S. J., Perai, A. H., & Sarir, H. (2017). Nanoselenium supplementation of heat-stressed broilers: Effects on performance, carcass characteristics, blood metabolites, immune response, antioxidant status, and jejunal morphology. Biological Trace Element Research, 178(1), 105–116.

Hosseini-Vashan, S. J., Safdari-Rostamabad, M., Piray, A. H., & Sarir, H. (2020). The growth performance, plasma biochemistry indices, immune system, antioxidant status, and intestinal morphology of heat-stressed broiler chickens fed grape (Vitis vinifera) pomace. Animal Feed Science and Technology, 259, 114343.

Sharifian, M., Hosseini-Vashan, S. J., Nasri, M. H. F., & Perai, A. H. (2019). Pomegranate peel extract for broiler chickens under heat stress: Its influence on growth performance, carcass traits, blood metabolites, immunity, jejunal morphology, and meat quality. Livestock Science, 227, 22–28.

Hosseini-Vashan, S. J., & Raei-Moghadam, M. S. (2019). Antioxidant and immune system status, plasma lipid, abdominal fat, and growth performance of broilers exposed to heat stress and fed diets supplemented with pomegranate pulp. Journal of Applied Animal Research, 47(1), 521–531.

Shohei Katsuya | Research Excellence | Excellence in Research

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Mr. Shohei Katsuya | Research Excellence | Excellence in Research

Mr. Shohei Katsuya | Advanced Technology Laboratories, OSAKA GAS Co., Ltd. | Japan

Shohei Katsuya is a dedicated Researcher at the Advanced Technology Laboratories of OSAKA GAS Co., Ltd., where he specializes in cutting-edge metabolic and nutritional research. He holds a Master of Agriculture degree from Kyoto University, completed in March 2021, and has since been actively involved in advanced investigations centered on the physiological functions and health impacts of beta-hydroxybutyrate (BHB). Since joining Osaka Gas in April 2021, Katsuya has contributed significantly to a series of clinical and biochemical studies exploring the therapeutic potential of BHB, a key ketone body known for its roles in metabolism, energy utilization, and physiological regulation. His research focuses on understanding the metabolic pathways and physiological effects of BHB in humans, with applications ranging from obesity reduction to improved sleep quality and metabolic health. He has authored five peer-reviewed publications between 2023 and 2025 in reputable journals including Obesities, Journal of Nutritional Science and Vitaminology, Bioscience, Biotechnology, and Biochemistry, and Nutrition. These works include randomized, double-blind, placebo-controlled clinical trials investigating the effects of D-BHB on body fat reduction, sleep quality enhancement, and its safety profile in humans and animal models. Additionally, he contributed to a collaborative study demonstrating BHB’s protective effects on diabetic renal and muscular pathologies.Katsuya’s publications have collectively received 18 citations and earned an h-index of 2 according to Scopus, reflecting the emerging impact of his work within the nutritional and biochemical sciences. His ongoing projects continue to deepen scientific understanding of BHB as a functional metabolite with potential applications in health optimization, disease prevention, and metabolic regulation. Through his work, Shohei Katsuya is advancing evidence-based insights that contribute to both academic knowledge and practical applications in human health research.

Profile: Orcid

Featured Publications

Katsuya, S., Kawata, Y., Kawamura, J., Goto, T., Takara, T., & Tsubota, J. (2025). Effect of D-β-hydroxybutyric acid on body fat in Japanese adults: A randomized, double-blind, placebo-controlled study. Obesities, 5(4), 82. https://doi.org/10.3390/obesities5040082

Aisyah, R., Katsuya, S., Miyata, K., Chen, Z., Horii, M., Kudo, A., Kumrungsee, T., Tsubota, J., & Yanaka, N. (2025). β-Hydroxybutyrate attenuates diabetic renal and muscular pathologies in a streptozotocin-induced diabetic model. Nutrition, Article 112792. https://doi.org/10.1016/j.nut.2025.112792

Katsuya, S., Kawata, Y., Kawamura, Y., Kawamura, J., & Tsubota, J. (2025). Effect of d-β-hydroxybutyrate on sleep quality in healthy participants: A randomized, double-blind, placebo-controlled study. Bioscience, Biotechnology, and Biochemistry, 89(5), 769–775. https://doi.org/10.1093/bbb/zbaf017

Katsuya, S., Kawata, Y., Sugimoto, M., Nishimura, T., & Tsubota, J. (2024). Determination of the safety of Halomonas sp. KM-1-derived d-β-hydroxybutyric acid and its fermentation-derived impurities in mice and Japanese adults. Bioscience, Biotechnology, and Biochemistry, 88(9), 1073–1080. https://doi.org/10.1093/bbb/zbae088

Ip, C.-H., Higuchi, H., Wu, C.-Y., Okuda, T., Katsuya, S., Ogawa, J., & Ando, A. (2024). Production of docosahexaenoic acid by a novel isolated Aurantiochytrium sp. 6-2 using fermented defatted soybean as a nitrogen source for sustainable fish feed development. Bioscience, Biotechnology, and Biochemistry, 88(5), 872–881. https://doi.org/10.1093/bbb/zbae035

Katsuya, S., Kawata, Y., Goto, T., & Tsubota, J. (2023). Daily intake of D-β-hydroxybutyric acid (D-BHB) reduces body fat in Japanese adult participants: A randomized, double-blind, placebo-controlled study. Journal of Nutritional Science and Vitaminology, 69(2), 121–128. https://doi.org/10.3177/jnsv.69.121

JeanMarie Farrow | Research Excellence | Best Researcher Award

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Dr. JeanMarie Farrow | Research Excellence | Best Researcher Award

Dr. JeanMarie Farrow | Georgia State University | United States

Dr. JeanMarie Farrow’s research centers on understanding and improving the factors within early childhood education that influence children’s language and literacy development, particularly in high-need settings. Her work systematically examines how teacher–child interactions and classroom practices contribute to oral language growth and early writing skills. Through both small- and large-scale empirical studies, she investigates effective models of professional development that enhance teachers’ capacity to implement evidence-based, language-rich instruction. Her research integrates theoretical and applied perspectives to identify feasible, sustainable approaches for strengthening early literacy and composing skills. A major strand of her scholarship explores the mechanisms underlying children’s oral language development, highlighting how teachers’ feedback, syntax, and conversational features shape vocabulary acquisition. Another line of inquiry focuses on early writing instruction as a pathway for language development, illustrating how structured composing activities and high-quality teaching strategies can foster creative and linguistic growth. In addition, she has contributed to advancing teacher professional learning by examining innovative approaches, including the role of project-based learning, coaching, and professional inquiry in supporting instructional improvement. Her studies, published in leading journals such as Journal of Child Language, Reading & Writing Quarterly, Early Childhood Education Journal, and Teaching and Teacher Education, contribute to the evidence base for designing effective professional development that bridges research and classroom practice. By connecting instructional theory, empirical findings, and practical application, her work provides actionable insights for educators, researchers, and policymakers seeking to promote equitable literacy outcomes. Supported by national research grants, her scholarship advances the understanding of how early education environments can be optimized to nurture children’s oral and written language development while equipping teachers with sustainable, research-informed pedagogical tools.

Profiles: Google Scholar | LinkedIn | Research Gate

Featured Publications 

Farrow, J. M., Wasik, B. A., & Hindman, A. H. (2020). Exploring the unique contributions of teachers’ syntax to preschoolers’ and kindergarteners’ vocabulary learning. Early Childhood Research Quarterly, 51, 178–190.

Farrow, M. J., & Farrow, J. M. (2019). Recognizing intergenerational assets within religious communities of colour. Journal of Childhood Studies, 71–84.

Hindman, A. H., Farrow, J. M., & Wasik, B. A. (2021). Understanding child-directed speech around book reading in toddler classrooms: Evidence from early head start programs. Frontiers in Psychology, 12, 719783.

Hindman, A. H., Farrow, J. M., & Wasik, B. A. (2022). Teacher–child conversations in preschool: Insights into how teacher feedback supports language development. Topics in Language Disorders, 42(4), 336–359.

Wasik, B. A., Farrow, J. M., & Hindman, A. H. (2022). More than “Good job!”: The critical role of teacher feedback in classroom discourse and language development. The Reading Teacher, 75(6), 733–738.

Farrow, J. M., Schneider Kavanagh, S., & Samudra, P. (2022). Exploring relationships between professional development and teachers’ enactments of project-based learning. Education Sciences, 12(4), 282.

Mr. Ehsan Esmaeeli | Research Excellence | Best Researcher Award | 2537

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Mr. Ehsan Esmaeeli | Research Excellence | Best Researcher Award

Mr. Ehsan Esmaeeli | Sharif University of Technology | Iran

Ehsan Esmaeeli, a dedicated researcher in Maintenance and Reliability Engineering at Sharif University of Technology, exemplifies excellence in research, innovation, and professional expertise. His scholarly contributions span maintenance optimization, reliability modeling, and intelligent asset management systems, integrating AI and hybrid optimization techniques. With multiple publications in high-impact international journals such as IEEE Access and Journal of Quality in Maintenance Engineering, his work has advanced the understanding of data-driven maintenance strategies and sustainable industrial operations. A Certified Maintenance and Reliability Professional (CMRP), Asset Management Assessor (CAMA), and Reliability Leader (CRL), Ehsan bridges academic research with industrial practice, fostering innovation that enhances system reliability and operational efficiency.

Profile: ScopusOrcid

Featured Publications

Esmaeeli, E., Collins, A. J., Varmazyar, M., & Khorshidnia, M. (2025). Agent-based modeling applications in maintenance systems: A systematic review. Journal of Quality in Maintenance Engineering, 31(3), 325–349. https://doi.org/10.1108/JQME-03-2024-0028

Vandi Dlama Kamaunji | Research Excellence | Best Researcher Award

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Dr. Vandi Dlama Kamaunji | Research Excellence | Best Researcher Award

Dr. Vandi Dlama Kamaunji | Tyeeli New Energy Company Limited | Nigeria

Dr. Vandi Dlama Kamaunji is a geologist and geochemist with a strong background in mineral exploration, petrology, geochemistry, and geological mapping. His professional experience spans academic, industrial, and research roles, focusing on the geological evolution, petrogenesis, and mineralization of alkaline and peralkaline complexes in Nigeria and China. He has served as an Exploration/Resource Geologist at Wanrun Mining Company Limited, where he led geological field surveys, core logging, mineral resource estimations, and geophysical data interpretation to support mineral exploration and development projects. His work also included environmental impact assessments, data management, and regulatory compliance. Previously, as a Part-Time Lecturer at Adamawa State University, he delivered courses in ore deposits and geochemistry, supervised research projects, and contributed to curriculum development and academic mentorship. Earlier in his career, he held a leadership role as Head of Geology at L&T Hydrogeo-Engineering Company, where he conducted geophysical surveys, oversaw mineral exploration operations, and managed multidisciplinary geological teams. Dr. Kamaunji’s research contributions include multiple publications in high-impact international journals such as Lithos, International Geology Review, Geological Journal, and Journal of African Earth Sciences. His studies cover diverse topics such as tectonomagmatic processes, isotopic geochemistry, remote sensing applications, and mineral resource potential in Nigeria’s basement complexes and ring structures. His scientific expertise encompasses mineralogy, isotope and trace-element geochemistry, ore deposit modeling, and analytical techniques such as EPMA, LA-ICP-MS, ICP-MS, XRF, and SEM. He is actively engaged in international collaborations and professional organizations, including the International Association of Geochemistry, European Association of Geochemistry, Society of Economic Geologists, and the Nigerian Mining and Geoscience Society. Dr. Kamaunji has received several academic and merit awards, including the Excellent Graduate Award (Ph.D.) and the Excellent Master’s Dissertation Award from the China University of Geosciences, as well as the prestigious Chinese Government Scholarships for both his Master’s and Doctoral studies.

Profile: Google Scholar

Featured Publications

Kamaunji, V. D., Wang, L. X., Ahmed, H. A., Zhu, Y. X., Vincent, V. I., & Girei, M. B. (2020). Coexisting A1 and A2 granites of Kudaru Complex: Implications for genetic and tectonic diversity of A-type granite in the Younger Granite Province, north-central Nigeria. International Journal of Earth Sciences, 109(2), 511–535. https://doi.org/10.1007/s00531-020-01818-8

Kamaunji, V. D., Wang, L. X., Ma, C. Q., Liu, J., & Zhu, Y. X. (2021). Petrogenesis and tectonic implication of the Permian–Triassic syenogranites from the eastern segment of the East Kunlun Orogen, China. Lithos, 402, 105932. https://doi.org/10.1016/j.lithos.2020.105932

Vincent, V. I., Wang, L. X., Zhu, Y. X., Kamaunji, V. D., Ahmed, H. A., Ntekim, E. E., & Cao, L. (2022). Onset of the anorogenic alkaline magmatism in the Nigerian Younger Granite Province: Constraints from the Daura and Dutse complexes. Lithos, 410, 106561. https://doi.org/10.1016/j.lithos.2021.106561

Vincent, V. I., Li, H., Girei, M. B., Förster, M. W., & Kamaunji, V. D. (2023). Tourmaline and zircon trace the nature and timing of magmatic-hydrothermal episodes in granite-related Sn mineralization: Insights from the Libata Sn ore field. American Mineralogist, 108(3), 552–571. https://doi.org/10.2138/am-2023-8334

Ahmed, H. A., Wang, L. X., Ma, C. Q., Abdallsamed, M. I. M., Girei, M. B., Zhu, Y. X., Vincent, V. I., & Kamaunji, V. D. (2021). Contrasting Neoproterozoic and Mesozoic granitoids in Zaranda Complex (Nigeria): Insights into the distinct origins, tectonic settings, and mineralization potential. International Journal of Earth Sciences, 110(4), 1389–1413. https://doi.org/10.1007/s00531-021-02021-z

 

Ajit Yadav | Research Excellence | Best Researcher Award

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Mr. Ajit Yadav | Research Excellence | Best Researcher Award

Mr. Ajit Yadav | Indian Institute of Technology Indore | India

Mr. Ajit Yadav is a Ph.D. Scholar in Electrical Engineering at the Indian Institute of Technology (IIT) Indore, specializing in two-dimensional transition metal dichalcogenide (2D-TMD)-based IoT-enabled biosensors for early disease detection. His research integrates nanomaterials synthesis via chemical vapor deposition (CVD) with smart sensor technology, enabling real-time and highly sensitive biomolecule detection. He has two granted patents on point-of-care diagnostic systems and toxic gas detection technologies and has published three peer-reviewed papers in leading SCI-indexed journals such as the IEEE Sensors Journal and Journal of Electroanalytical Chemistry. His collaborative projects with AIIMS Bhopal and RMIT University, Australia, strengthen the biomedical application and global impact of his work. Through innovative sensor design, IoT integration, and interdisciplinary collaboration, Mr. Yadav’s research contributes to the advancement of portable, scalable, and intelligent biosensing platforms, supporting the future of personalized healthcare and environmental monitoring.

Profile: OrcidGoogle Scholar

Featured Publications

Verma, V. K., Patel, C., Chaudhary, S., Yadav, A., Bajoria, P., Ako, R. T., Sriram, S., & Mukherjee, S. (2025). Pd-loaded MoS₂ nanoflowers for enhanced room-temperature methanol sensing. IEEE Sensors Journal, 25(2), 2186–2193. https://doi.org/10.1109/JSEN.2024.3506014

Yadav, A., Patel, C., Kanwar, J. R., Sriram, S., & Mukherjee, S. (2025). Miniaturized IoT-enabled MoS₂-based electrochemical sensor for real-time adenine monitoring. Journal of Electroanalytical Chemistry, 119564. https://doi.org/10.1016/j.jelechem.2025.119564

Yadav, A., Patel, C., Verma, V. K., Kanwar, J. R., Sriram, S., & Mukherjee, S. (2025). A point-of-care and IoT-enabled MoS₂-based sensor for uric acid detection in human serum. IEEE Sensors Journal, 25(20), 37714–37721. https://doi.org/10.1109/JSEN.2025.3609535

Azim Paksa | Research Excellence | Best Researcher Award

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Dr. Azim Paksa | Research Excellence | Best Researcher Award

Dr. Azim Paksa, Shiraz University of Medical Sciences, Iran

Dr. Azim Paksa holds a Ph.D. in Medical Entomology and Vector Control from Tehran University of Medical Sciences, with over 15 years of academic and field experience in vector biology, insecticide resistance, and mosquito ecology. He has led numerous research projects focused on disease vectors such as Anopheles, Aedes, and Blattella germanica, and has published extensively in peer-reviewed ISI and ISC journals. His work includes gene sequencing contributions to GenBank, active participation in national congresses, and involvement in public health initiatives across Iran. Dr. Paksa is a member of the Iranian Societies of Medical Entomology and Parasitology and is skilled in molecular biology techniques, data analysis (SPSS), and scientific publishing.

Author Profile

orcid

🎓 Early Academic Pursuits

Dr. A. Paksa’s academic journey in the field of medical entomology began with a strong foundation at the Tehran University of Medical Sciences, where he pursued and successfully completed a Bachelor’s, Master’s, and Ph.D. in Medical Entomology and Vector Control. His early academic years were marked by a deep interest in public health and vector-borne diseases, which naturally progressed into a lifelong dedication to research and fieldwork. His Master’s thesis focused on detecting resistance mechanisms to organophosphate and carbamate insecticides in Blattella germanica (German cockroach) collected from Tehran hospitals. Later, during his Ph.D., he conducted an extensive study on the genetic diversity, Wolbachia infection, and ecological features of Aedes caspius and Aedes vexans, both of which are significant vectors for arboviruses in Iran. This early research demonstrated his capability in both laboratory and field settings, laying the groundwork for his future contributions to medical entomology and public health.

👨‍🔬 Professional Endeavors

Dr. Paksa has served in multiple academic, research, and public health capacities, working closely with Tehran University of Medical Sciences, Kashan University of Medical Sciences, and Hormozgan University of Medical Sciences, among others. As an executive director and principal collaborator, he has led and completed over a dozen major research projects addressing critical issues in entomology, such as insecticide resistance, vector identification, and ecological surveys of disease-carrying arthropods. In addition to field studies, Dr. Paksa has been an active member of organizing and scientific committees in several national conferences, including the Vector-Borne Diseases and Climate Change Congress and the Iranian National Congress on Medical Entomology, demonstrating his leadership in scientific community engagement.

🧪 Contributions and Research Focus

Dr. Paksa’s contributions to medical entomology are vast and multifaceted. He has authored numerous peer-reviewed ISI and ISC publications, covering topics from mosquito larvicidal properties of essential oils to biochemical resistance mechanisms in disease vectors. His research often combines molecular biology, field ecology, and applied public health, making it both academically rigorous and practically applicable.  His work has been instrumental in identifying and combating insecticide resistance in Anopheles stephensi and Blattella germanica, two vectors of significant public health concern. He has also made critical gene sequence deposits in GenBank, contributing to the global scientific repository with data from Iranian vector species. Dr. Paksa’s dedication to natural product-based insect control is notable—his investigations into the larvicidal effects of Iranian indigenous plant essential oils have opened new avenues in eco-friendly vector control strategies.

🏆 Accolades and Recognition

Throughout his career, Dr. Paksa has earned recognition for both the quality and breadth of his research. His presence in multiple national scientific conferences, both as a presenter and an organizing committee member, speaks to the high regard in which he is held by peers. He has served as a referee for the Journal of Arthropod-Borne Diseases and evaluated proposals and books for Zabol University of Medical Sciences, further reflecting his expertise and trustworthiness in scientific evaluation. Moreover, his active membership in the Iranian Society of Medical Entomology and Medical Parasitology for over a decade underscores his commitment to scientific collaboration and advancement within his specialty.

🌍 Impact and Influence

Dr. Paksa’s research has had a direct impact on vector control policies, hospital hygiene practices, and disease prevention strategies in Iran. His work on cockroach and mosquito resistance mechanisms has influenced how hospitals and municipalities approach pest control. Furthermore, his studies on head lice prevalence in schoolchildren and tick infestation in livestock have provided critical insights into zoonotic disease transmission and public health education. By combining field data with molecular insights, Dr. Paksa bridges the gap between lab-based science and real-world applications—making his work especially valuable to policy-makers, healthcare providers, and environmental health professionals.

🔬 Legacy and Future Contributions

With a solid foundation built on two decades of field experience, scientific research, and public health collaboration, Dr. Paksa is well-positioned to continue making influential contributions in the years ahead. His current projects focus on the molecular mechanisms of resistance in vector populations and the development of environmentally sustainable vector control strategies. In the future, Dr. Paksa aims to deepen international collaborations, contribute to global malaria and arboviral control efforts, and mentor the next generation of entomologists in Iran and beyond. His legacy will likely be remembered not only for his extensive publication record and field innovations but also for his dedication to improving public health through evidence-based research.

✍️Notable Publications

Molecular assay on detection of crimean congo hemorrhagic fever (CCHF) virus in ixodid ticks collected from livestock in slaughterhouse from south of Iran

Contributors: Salehi-Vaziri, M.; Vatandoost, H.; Sanei-Dehkordi, A.; Fazlalipour, M.; Pouriayevali, M.H.; Jalali, T.; Mohammadi, T.; Tavakoli, M.; Paksa, A.; Abadi, Y.S.

Journal: Arthropod-Borne Diseases

Year:2020

Biodiversity of mosquitoes (Diptera: Culicidae) with emphasis on potential arbovirus vectors in East Azerbaijan province, northwestern Iran

ContributorsPaksa, A.; Sedaghat, M.M.; Vatandoost, H.; Yaghoobi-Ershadi, M.R.; Moosa-Kazemi, S.H.; Hazratian, T.; Sanei-Dehkordi, A.; Oshaghi, M.A.

Journal: Arthropod-Borne Diseases

Year: 2019

Wild chive oil is an extremely effective larvicide against malaria mosquito vector Anopheles stephensi

Contributors: Sanei-Dehkordi, A.; Soleimani-Ahmadi, M.; Abadi, Y.S.; Paksa, A.
Journal: Tropical Medicine
Year: 2019