Ammasi Periasamy | Engineering | Best Researcher Award

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Ammasi Periasamy | Engineering | Best Researcher Award

University of Virginia | United States

Dr. Periasamy is an internationally renowned scientist recognized for his groundbreaking contributions to the development of advanced optical microscopy techniques for imaging and analyzing single cells, tissues, and living organisms. His pioneering research focuses on designing and developing cutting-edge optical methodologies to study molecular interactions and cellular processes in real time. A major highlight of his recent work is the development of the Fluorescence Lifetime Redox Ratio (FLIRR), an innovative technique used to investigate cellular metabolism and mitochondrial dysfunction, with promising applications in the early detection of prostate cancer and its correlation with PSA levels. Widely regarded as one of the pioneers of fluorescence lifetime imaging microscopy (FLIM), Dr. Periasamy has made significant advances in monitoring calcium oscillations within living cells and developing 2- and 3-color confocal, multiphoton, and FLIM-based Förster resonance energy transfer (FRET) imaging systems for visualizing protein interactions in living specimens. His prolific scholarly output includes over 185 refereed journal publications, numerous book chapters, and proceedings, along with more than 200 invited lectures at national and international platforms. As a respected leader in his field, he has edited three books and serves as the series editor for the “Cellular and Clinical Imaging” book series, encompassing 11 volumes. Dr. Periasamy also plays a key role in the global microscopy community as the chairperson and organizer of the annual SPIE conference on Multiphoton Microscopy in the Biomedical Sciences since 2001 and conducts a highly regarded hands-on training workshop on FLIM, FRET, and metabolic imaging at the University of Virginia each year. In recognition of his outstanding scientific achievements and contributions to optical microscopy, he was elected a Fellow of the SPIE Optical Society in 2012.

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Featured Publications

Alam, S. R., Mahadevan, M. S., & Periasamy, A. (2023). Detecting RNA–Protein Interactions with EGFP-Cy3 FRET by Acceptor Photobleaching. Current Protocols, 3(2), e689.

Norambuena, A., Sun, X., Wallrabe, H., Cao, R., Sun, N., Pardo, E., Shivange, N., Wang, D. B., Post, L. A., Ferris, H. A., Hu, S., Periasamy, A., & Bloom, G. S. (2022). SOD1 mediates lysosome-to-mitochondria communication and its dysregulation by amyloid-β oligomers. Neurobiology of Disease, 169, Article 105737.

Zhang, J., Wallrabe, H., Siller, K., Mbogo, B., Cassidy, T., Alam, S. R., & Periasamy, A. (2025). Measuring metabolic changes in cancer cells using two-photon fluorescence lifetime imaging microscopy and machine-learning analysis. Journal of Biophotonics, 18, e202400426.

 Alam, S. R., Wallrabe, H., Christopher, K. G., Siller, K. H., & Periasamy, A. (2022). Characterization of mitochondrial dysfunction due to laser damage by 2-photon FLIM microscopy. Scientific Reports, 12, Article 11938.

Zhou, L., & El-Deiry, W. S. (2009). Multispectral fluorescence imaging. Journal of Nuclear Medicine, 50(10), 1563-1566.

Leonid Zotov | Energy | Best Researcher Award

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Leonid Zotov | Energy | Best Researcher Award

Novosiibirsk State Technical Universiti, NSTU | Russia

Dr. Leonid Grigoryevich Zotov is a distinguished researcher and academic affiliated with Novosibirsk State Technical University, Novosibirsk, Russian Federation, he has made notable contributions to his field through impactful and methodologically rigorous research. Dr. Zotov’s academic endeavors span across several interdisciplinary areas, reflecting a strong focus on applied and theoretical aspects of engineering and technology. His research is characterized by a commitment to advancing scientific knowledge, developing innovative solutions, and contributing to the technological progress of Russia’s academic and industrial sectors. As a dedicated scholar, he has collaborated with multiple international and national co-authors, fostering cross-disciplinary partnerships that enhance the global visibility of his work. Throughout his career, Dr. Zotov has demonstrated a deep passion for education, mentoring, and the dissemination of scientific knowledge through conferences, journals, and institutional research programs. His association with Novosibirsk State Technical University underscores his active engagement in teaching, academic leadership, and research excellence. With a reputation for precision and innovation, Dr. Zotov continues to pursue research that bridges theoretical understanding with real-world application, contributing meaningfully to both academic scholarship and technological development.

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Featured Publications

  • Zotov, L. G., & Bolshakov, I. M. (2024). Hydrogen fuel cell energy regulators based on boost DC–DC converters with switched capacitors. International Journal of Hydrogen Energy, 95, 18 December 2024.

  • Zotov, L. G., & Bolshakov, I. M. (2022). The 10 kW autonomous energy-efficient power supply system. In Proceedings of the 2022 IEEE International Multi Conference on Engineering, Computer and Information Sciences (Sibircon 2022). IEEE.

  • Zotov, L. G., & Bolshakov, I. M. (2022). Structural synthesis of capacitor DC–DC converters. In Proceedings of the International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices (EDM 2022) (June 2022). IEEE.

Xusheng Wan | Engineering | Best Researcher Award

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Xusheng Wan | Engineering | Best Researcher Award

Southwest Petroleum University | China

Wan Xusheng, from Jingning, Gansu Province, is a distinguished professor, assistant dean, and doctoral supervisor at the School of Civil Engineering and Surveying, Southwest Petroleum University. He earned his Ph.D. in geotechnical engineering from the University of Chinese Academy of Sciences and completed a postdoctoral fellowship at Sichuan University. Professor Wan has led three National Natural Science Foundation projects and over ten other provincial and key laboratory-funded research initiatives. His work has earned him significant recognition, including a first prize in the Gansu Provincial Science and Technology Progress Award and a second prize in the National Association Award. He has published over 100 academic papers, 56 of which are SCI-indexed, garnering more than 1,200 citations, and holds over 40 national patents and four software copyrights. He serves on the editorial boards of the ASCE Journal of Cold Regions Engineering and the Glacier and Permafrost Institute and reviews for more than 40 international and domestic journals. Professor Wan teaches undergraduate courses in Soil Mechanics and Advanced Soil Mechanics, and graduate courses including Geotechnical Engineering Testing and Construction Monitoring, having guided more than 60 undergraduate projects and trained numerous master’s students. He has contributed extensively to teaching reform, leading provincial- and university-level projects, co-editing a graduate textbook, and publishing multiple educational reform papers. His students have achieved national and regional awards under his mentorship. Actively involved in professional organizations, he serves on committees related to cold regions engineering, geosciences, and civil engineering education, and is committed to advancing research, innovation, and talent cultivation in geotechnical engineering, particularly in cold and arid regions.

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Featured Publications

  • Wan, X., Lai, Y., & Wang, C. (2015). Experimental study on the freezing temperatures of saline silty soils. Permafrost and Periglacial Processes, 26(2), 175–187.

  • Wan, X., You, Z., Wen, H., & Crossley, W. (2017). An experimental study of salt expansion in sodium saline soils under transient conditions. Journal of Arid Land, 9(6), 865–878.

  • Wan, X., Gong, F., Mengfei, [et al.]. (2019). Experimental study of the salt transfer in a cold sodium sulfate soil. KSCE Journal of Civil Engineering, 23(4), 1573–1585.

  • Wan, X., & Yang, Z. (2020). Pore water freezing characteristic in saline soils based on pore size distribution. Cold Regions Science and Technology, 173, 103030.

  • Wan, X., Zhong, C., Mohamed, H. S., Qiu, E., & Qu, M. (2020). Study on the thermal conductivity model of sodium sulfate soils. Experimental Heat Transfer.

  • Wan, X., Liu, E., & Qiu, E. (2021). Study on ice nucleation temperature and water freezing in saline soils. Permafrost and Periglacial Processes, 32(1), 119–138.

Aldona Kluczek | Energy | Best Researcher Award

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Aldona Kluczek | Energy | Best Researcher Award

Warsaw University of Technology | Poland

Dr. Aldona Kluczek is an Associate Professor at the Warsaw University of Technology with academic and research experience in energy efficiency, Industry technologies, and sustainability practices. She earned her M.Sc. in Mechanics and Machine Design and her Ph.D. in Technical Sciences from the Warsaw University of Technology, followed by a habilitation in Technical Sciences from the Cracow University of Technology with her monograph Contemporary Trends in Energy Sustainability for Manufacturing SMEs: Overview, Perspectives, and Assessment Approaches. She also holds an Executive MBA from the Warsaw University of Technology and completed several postgraduate programs in quality, environment, industrial safety, and business process analysis. Dr. Kluczek has an extensive teaching portfolio, having delivered courses at both undergraduate and postgraduate levels in quality engineering, project and technology management, and operations research, and has supervised theses and dissertations, including BA, MA, and Ph.D. projects. She currently serves as Head of the Division of Management and Quality at the Institute of Production Systems Organization and is a member of the Sustain research group. Her research has resulted in more than peer-reviewed publications, and she authored a widely recognized monograph as part of her habilitation. Internationally, she gained experience as a Visiting Assistant Research Scientist at the University of Michigan, where she conducted industrial energy audits for the U.S. Department of Energy. Her work integrates technical innovation with sustainable industrial practices, reflecting her commitment to advancing energy sustainability and Industry in manufacturing systems.

Profile: Google Scholar

Featured Publications

Buczacki, A., Gładysz, B., Kluczek, A., Krystosiak, K., Ejsmont, K., Maleńczyk, I., Guerra, R. H., Palmer, P., & van Erp, T. (2025). The role of sustainability competences for IT systems engineers: Insights from a multiple case study. Lecture Notes in Computer Science.

Gładysz, B., Krystosiak, K., Buczacki, A., Quadrini, W., Ejsmont, K., Kluczek, A., Park, J., & Fumagalli, L. (2024). Sustainability and Industry 4.0 in the packaging and printing industry: A diagnostic survey in Poland. Engineering Management in Production and Services, 16(1), 51–67.

Woźniak, A., Kluczek, A., & Nycz, P. D. (2024). Approach for identifying the impact of local wind and spatial conditions on wind turbine blade geometry. International Journal of Energy Research, 2024, 1–13.

Woźniak, A., Kluczek, A., Ślusarczyk, B., Żegleń, P., & Górka, M. (2024). The impact of local wind and spatial conditions on geometry blade of wind turbine. Energy Science & Engineering, 1–14.

Gładysz, B., Wiśniewski, M., Kluczek, A., Młodzianowski, P., & Szymanek, A. (2023). Tracking sustainable Industry 4.0 for listed companies. Przegląd Organizacji, 2023(3), 124–138.

John Wiredu | Energy | Most Cited Article Award| – 8521

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Mr. John Wiredu |Energy| Most Cited Article Award

Researcher at Northwestern Polytechnical University

Mr. John Wiredu is a notable professional with a distinguished career in [Field/Industry]. Known for his expertise and impactful contributions, Mr. Wiredu has built a reputation for excellence through his strong academic background and extensive experience. His work reflects a commitment to innovation, leadership, and professional growth, making him a respected figure in his domain.

Professional Profiles:

📚 Education:

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Skills :

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Achievements:

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📚Publications :