Dinesh Veeran Ponnuvelu | Nanotechnology | Research Excellence Award

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Assoc Prof Dr. Dinesh Veeran Ponnuvelu | Nanotechnology | Research Excellence Award 

Dhanlakshmi Srinivasan University | India

Dr. Dinesh Veeran Ponnuvelu is an accomplished researcher and academic with interdisciplinary expertise spanning nanoscience, precision sensors, MEMS/NEMS device fabrication, and smart agricultural technologies. With a strong foundation in agriculture and advanced training in nanotechnology, his research uniquely bridges fundamental nanoscale material science with real-world applications in environmental monitoring, healthcare diagnostics, and precision farming. He currently serves as Associate Professor at the School of Agricultural Sciences, Dhanalakshmi Srinivasan University, India, and has held prestigious international research positions in South Korea and Israel, reflecting the global relevance and impact of his work. Dr. Dinesh’s core research focuses on the synthesis, characterization, and functional integration of hetero-nanostructured materials, particularly metal oxide–based core–shell and heterojunction nanostructures. These materials are engineered to achieve enhanced sensitivity, selectivity, and low-temperature operability for gas sensing applications. His pioneering contributions in plasmonic nanostructures (ZnO@Ag, ZnO@Au, TiO₂–Au, graphene-supported systems) have advanced trace-level detection of environmentally and clinically important gases such as NO₂ and NH₃. He has also made significant progress in understanding spill-over sensitization, surface defect engineering, and nano-contact optimization for high-performance chemiresistive sensors. His recent work integrates microfluidics, 3D printing, and bio-inspired nanosystems to develop low-cost, portable, and scalable diagnostic devices, including breath analyzers and biomedical sensing platforms. These efforts align strongly with sustainable development goals, particularly in healthcare accessibility, food safety, and environmental protection.

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Featured Publications

Tiezhen Ren | Advanced Materials Engineering | Research Excellence Award

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Prof. Tiezhen Ren | Advanced Materials Engineering | Research Excellence Award

Xinjiang university | China

Prof. Dr. Tie-Zhen Ren is a distinguished Professor at the School of Chemical Engineering, Xinjiang University, China. She obtained her Ph.D. in Inorganic Materials Chemistry from the University of Namur (FUNDP), Belgium, where she completed a thesis on hierarchically nanoporous functional materials under the supervision of Prof. Bao-Lian Su. Prior to her doctorate, she studied Polymer Engineering at Tianjin Institute of Technology and later pursued graduate studies in Plant Protection at Anhui Agricultural University. Her academic career includes serving as a Professor at Hebei University of Technology (2007–2021), conducting postdoctoral research at Stockholm University in Sweden, and working as a visiting researcher at the City College of New York. Prof. Ren’s research focuses on the synthesis and characterization of nanostructured materials, mesoporous silica and metal oxide systems, photocatalysis, environmental materials, crystalline porous germanium oxides, catalyst development, and biomass-derived functional materials. She has extensive experience with advanced characterization techniques such as TEM, SEM-EDX, XRD, FT-IR, and electrochemical systems, and actively teaches courses such as General Chemistry, Chemical Engineering Principles, Catalysis, and Technical English. Prof. Ren has been the recipient of numerous prestigious honors, including the China National Scholarship for Outstanding Self-Financed Students Abroad, the Tianchi Talent Leader Award, and the Tianjin Natural Science Award. She has led multiple national and international research projects funded by the National Natural Science Foundation of China, Ministry of Education, and Xinjiang Autonomous Region, focusing on photocatalysis, nanocatalyst design, biomass valorization, and environmental remediation. She has authored and co-authored more than 80 peer-reviewed scientific publications across high-impact journals and continues to contribute to research in sustainable chemistry, catalysis, and materials science. She is fluent in English and Chinese and has basic proficiency in French.

Profiles: Scopus | Orcid

Featured Publications

Huang, S., Zhang, H., Zhang, T., Li, C., Ren, T., & He, Z. (2025). High‐efficiency exfoliation of atomically‐thin non‐Van der Waals quasicrystal nanosheets with enhanced electrocatalytic oxygen evolution reaction performance. Small Methods. https://doi.org/10.1002/smtd.202501162

Song, Z.-H., Muhammad, I., Ren, T.-Z., Abulizi, A., Okitsu, K., Li, H.-R., & Zhang, X.-J. (2025, March 27). Preparation of Al₂O₃ nanoparticles via fluidized roasting and their application in the pyrolysis of spent mulching film for hydrocarbon production. ACS Sustainable Resource Management. https://doi.org/10.1021/acssusresmgt.4c00436

Han, J., Sun, L., Ulbricht, M., Fischer, L., Zhang, G., Gao, W., Lv, L., Ren, T., Liu, X., & Ren, Z. (2025). Sulfite enhanced permanganate/Fe(II) moderate oxidation coagulation for the treatment of algae-laden water: Performance and mechanisms. Chemical Engineering Journal. https://doi.org/10.1016/j.cej.2024.159084

Fu, H., Bai, H., Abulizi, A., Okitsu, K., Maeda, Y., Ren, T., & Wang, S. (2024). Surfactant-enhanced ZnOₓ/CaO catalytic activity for ultrasound-assisted biodiesel production from waste cooking oil. Reaction Chemistry & Engineering. https://doi.org/10.1039/D3RE00306J

Cui, M.-J., Li, S.-S., Ren, T., Abulizi, A., & Nulahong, A.-S. (2024). Boosting BaTi₄O₉ photocatalytic H₂ evolution activity by functionalized CuNi alloy. Journal of Photochemistry and Photobiology A: Chemistry. https://doi.org/10.1016/j.jphotochem.2024.115834

Cui, M.-J., Muhammad, I., Feng, J., & Ren, T. (2024). Isopropanol assisted preparation of α–Al₂O₃ nanoparticles and its surface charge investigation. Solid State Sciences. https://doi.org/10.1016/j.solidstatesciences.2024.107706

Sumit Swain | Nanotechnology | Excellence in Research Award

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Assist. Prof. Dr. Sumit Swain | Nanotechnology | Excellence in Research Award

Dayanandasagar College of Engineering | India

Dr. Sumit Swain is an emerging researcher in the field of Fractional-Order Circuits and Systems, with a specialized focus on modeling, design, experimentation, and implementation of fractional-order elements. His research spans across interdisciplinary areas including analog signal processing, bioimpedance analysis, wireless power transfer systems, biomedical instrumentation, and sensor design. He has been actively engaged in both theoretical and experimental studies on fractional inductors and capacitors, aiming to enhance the performance and efficiency of modern analog and mixed-signal systems. Dr. Swain earned his Doctor of Philosophy (Ph.D.) in 2025 from the School of Electronic Sciences, Odisha University of Technology and Research (OUTR), Bhubaneswar, India, under the guidance of Dr. Madhab Chandra Tripathy and Dr. Sribatsa Behera. His doctoral thesis, “Performance Improvement of Circuits and Systems Through Design and Analysis of Fractional-Order Elements,” presents innovative approaches to circuit optimization using fractional-order modeling principles. He also holds a Master of Technology (M.Tech.) in Electronics and Instrumentation Engineering from the same institution (2020), where his work on fractional-order filters and FOPID controllers laid the foundation for his subsequent research contributions. His Bachelor of Technology (B.Tech.) in Applied Electronics and Instrumentation was completed at C.V. Raman College of Engineering, Bhubaneswar, in 2018. With an impressive publication record of over 25 research papers, including 11 papers in SCIE and Scopus-indexed journals, 16 conference papers, and several manuscripts under review in reputed journals such as IEEE Transactions on Power Electronics and Circuits, Systems and Signal Processing, Dr. Swain has established himself as a dynamic researcher in electronic sciences. His works have collectively attracted 199 citations and an h-index of 10, reflecting his growing academic impact. His publications appear in high-quality international journals such as Computers in Biology and Medicine (Elsevier), Journal of Food Engineering (Elsevier), Nanoscale Advances (RSC), IETE Journal of Research (Taylor & Francis), Sādhanā (Springer), and AEU–International Journal of Electronics and Communications (Elsevier). His contributions include the realization of fractional-order inductors and capacitors, switched-capacitor-based filter designs, and fractional-order amplifiers, as well as innovative studies on bioimpedance modeling for analyzing the ripening and moisture content of fruits and vegetables. Dr. Swain’s excellence has been recognized with multiple honors, including the Young Scientist Award (2022) and the Best Researcher Award (2021) from the International Research Awards on Science, Health, and Engineering (“World Research Awards (WRA)”), alongside Best Paper Awards at several IEEE international conferences. He has also delivered. Dr. Sumit Swain’s research integrates fractional calculus, sensor technology, and circuit innovation to push the boundaries of analog and biomedical electronics. His consistent publication output, recognized academic contributions, and commitment to advancing sustainable and intelligent circuit systems mark him as one of the promising young researchers in the field of electronic sciences.

Profiles: Scopus | Orcid

Featured Publications

Swain, S., Tripathy, M. C., Bhuyan, K. C., & Behera, S. (2025). Wide-band fractional-order filter design using coaxial TEM fractional-inductor. Next Research, 2(2), 100395.

Swain, S., Swain, S., Panda, B., & Tripathy, M. C. (2025). Modeling and optimal analysis of lung cancer cell growth and apoptosis with fractional-order dynamics. Computers in Biology and Medicine, 188, 109837.

Nayak, B., Swain, S., & Tripathy, M. C. (2025). Fractional order bioimpedance modeling for sensing fruit properties. Journal of Food Engineering, 397, 112594. https://doi.org/10.1016/j.jfoodeng.2025.112594

Swain, S., Tripathy, M. C., Behera, S., & Dastidar, A. (2025). Experimental analysis of ripening stages and moisture content of lemon using fractional-order bio-impedance modelling. IETE Journal of Research.

Sahoo, A., Acharya, A., Jena, P., Moonis, M., Biswal, J. P., Swain, S., & Tripathy, M. C. (2025). Zirconium ferrite nanoparticles as smart materials for energy and environmental applications: Fractional-order supercapacitors, reservoirs of F− ions, and efficient electrocatalysts for water splitting. Nanoscale Advances, 7(1), 1–12.

Swain, S., Tripathy, M. C., Sahoo, A., Acharya, A. N., & Behera, S. (2024). Implementation of a fractional-inductor (α < 0.5) and its performance study in a high-frequency LαR integrator circuit. AEU–International Journal of Electronics and Communications, 167, 155114.

Swain, S., Dash, S., & Tripathy, M. C. (2024). FOPID-based feed-forward temperature control of a 100°C thermal reservoir. In Proceedings of the 1st International Conference on Software, Systems and Information Technology (SSITCON 2024) (pp. 1–5).

Swain, S., Swami, S. D., Tripathy, M. C., & Behera, S. (2024). Performance exploration and tunability of a high-frequency fractional-order clock oscillator. In Proceedings of the IEEE International Conference on Smart Power Control and Renewable Energy (ICSPCRE 2024) (pp. 1–6).

Doudou Zhang | Materials Science | Best Researcher Award

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Dr. Doudou Zhang | Materials Science | Best Researcher Award 

Macquarie University | Australia

Dr. Doudou Zhang is a distinguished Macquarie University Research Fellow (Vice-Chancellor Fellow) and lecturer in the School of Engineering, renowned for her pioneering contributions to functional materials and photoelectrochemical (PEC) energy systems. Her research focuses on the development of advanced materials and device architectures for solar-to-hydrogen conversion, CO₂ reduction, and sustainable ammonia synthesis, integrating materials design, device engineering, and artificial intelligence (AI)-driven approaches to accelerate innovation in renewable energy technologies. Dr. Zhang received her Ph.D. in Chemistry from Shaanxi Normal University, followed by a prestigious postdoctoral research fellowship at the Australian National University (ANU) from 2019 to 2024, where she specialized in photo(electro)catalysis for sustainable hydrogen production. At Macquarie University, she leads several cutting-edge research projects as both sole and co-chief investigator, including the ARENA project (KC012) on accelerating the commercialization of direct solar-to-hydrogen technology (A$2.25M; A$163K at MQ), an ARC Discovery Project (DP250104928) on zero-gap photoelectrochemical ammonia synthesis (A$580K), and the Macquarie University Research Fellowship project on the direct synthesis of earth-abundant bifunctional catalysts (A$848K). Her research portfolio demonstrates a remarkable ability to attract competitive national and industry funding, exceeding A$10 million in cumulative project value through collaborations with industry leaders such as Fortescue Future Industries (FFI). Her earlier work as a main investigator contributed to multiple high-impact projects, including ARENA and FFI-funded initiatives focused on developing low-cost perovskite/silicon semiconductors and macroelectrode electrolysis systems, each driving substantial advances in low-cost green hydrogen production. Beyond academic research, Dr. Zhang has actively engaged with industry, leading consultancy projects like the AEA Ignite initiative (A$489K) for developing durable roll-to-roll functional coatings for next-generation energy devices. Dr. Zhang has achieved an H-index of 21 and over 1,970 citations (Google Scholar, October 2025), reflecting the global influence of her research in energy materials. She has authored 38 peer-reviewed journal papers, 1 book chapter, and 12 granted patents (including one patent that attracted A$833K industrial funding). Her publications are consistently featured in top-tier journals such as Energy & Environmental Science, Advanced Energy Materials, Applied Physics Reviews, Chemical Engineering Journal, Materials Today Energy, Angewandte Chemie International Edition, and Progress in Materials Science. Notably, over 31% of her works rank within the top 10% citation percentiles, and 76% are among the top 25% most cited papers globally. Her contributions also extend to scholarly authorship and thought leadership, including an invited chapter titled “Advances in Perovskite-Based Photocatalysts: Materials Design, Mechanisms, and Applications” in Semiconductors and Semimetals (Elsevier, 2025). Dr. Zhang’s recent works demonstrate the integration of AI and machine learning in catalyst discovery, as seen in her publication “Prospects of AI in Advancing Green Hydrogen Production”.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Zhang, D., & Co-authors. (2025, September 25). Minimizing buried interface energy losses via urea phosphate derivatives enable high-efficiency carbon-based mesoscopic perovskite solar cells. Small. https://doi.org/10.1002/smll.202507384

Zhang, D., Pan, W., Lu, H., Wang, Z., Gupta, B., Oo, A. T., Wang, L., Reuter, K., Li, H., Jiang, Y., & Karuturi, S. (2025, September 1). Prospects of AI in advancing green hydrogen production: From materials to applications. Applied Physics Reviews, 12(3), 031335. https://doi.org/10.1063/5.0281416

Attar, F., Riaz, A., Zhang, D., Lu, H., Thomsen, L., & Karuturi, S. (2025, August 15). Advanced NiMoC electrocatalysts precisely synthesized at room temperature for efficient hydrogen evolution across pH ranges. Chemical Engineering Journal, 518, 164494. https://doi.org/10.1016/j.cej.2025.164494

Zhang, D., Pan, W. S., Sharma, A., Shen, H., Lem, O., Saraswathyvilasam, A., Yang, C., Weber, K., Wu, Y., Catchpole, K., Oo, A. T., & Karuturi, S. (2025, March). Over 14% unassisted water splitting driven by immersed perovskite/Si tandem photoanode with Ni-based catalysts. Materials Today Energy, 48, 101809. https://doi.org/10.1016/j.mtener.2025.101809

Wang, P., Oo, A. T., Chen, L., & Zhang, D. (2025). Recent advances of interfacial modification over tantalum nitride photoanodes for solar water oxidation: A mini review. Frontiers in Chemistry, 13, 1600959. https://doi.org/10.3389/fchem.2025.1600959

Zhang, D., Pan, W., Jiang, Y., & Co-authors. (2024, December 28). Defect management and crystallization regulation for high-efficiency carbon-based printable mesoscopic perovskite solar cells via a single organic small molecule. Journal of Materials Chemistry A. https://doi.org/10.1039/d4ta06877g

Ding, J., Zhang, D., Riaz, A., Gu, H., Soo, J. Z., Narangari, P. R., Jagadish, C., Tan, H. H., & Karuturi, S. (2024, November). Scalable amorphous NiFe(OH)x/Fe/graphene bifunctional electrocatalyst via solution-corrosion for water splitting. CCS Chemistry, 6, 2692–2703. https://doi.org/10.31635/ccschem.024.202404423

Zhang, D., & Co-authors. (2024, July 5). Solar-driven ammonia synthesis with Co–TiOx and Ag nanowires enhanced Cu₂ZnSnS₄ photocathodes. Applied Catalysis B: Environmental, 348, 123836. https://doi.org/10.1016/j.apcatb.2024.123836

Haiqing Pei | Advanced Materials | Best Researcher Award | 13320

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Mr. Haiqing Pei | Advanced Materials | Best Researcher Award 

Mr. Haiqing Pei, Northwestern Polytechnical University, China

Assoc. Prof. Haiqing Pei of Northwestern Polytechnical University specializes in the strength and life assessment of aero-engine hot-end components under service conditions. Over the past five years, he has published 38 academic papers, including 30 as the first or corresponding author, in prestigious journals such as Corrosion Science, IJMS, IJF, and Scripta Materialia. His research has garnered 1,200 citations in the Scopus database and received recognition from leading academic teams. He has also applied for 16 national patents, with 7 granted, and registered 5 software copyrights, contributing significantly to the field of aero-engine reliability and durability.

Profile

Scopus

🎓 Early Academic Pursuits

Haiqing Pei’s journey into the world of engineering and materials science began with a strong academic foundation. With a keen interest in mechanical structures and material properties, he pursued rigorous studies that set the stage for his future contributions to aero-engine component research. His academic excellence and deep-rooted understanding of material strength and fatigue analysis positioned him for a career dedicated to enhancing the performance and durability of aerospace systems.

💼 Professional Endeavors

Currently serving as an Associate Professor at Northwestern Polytechnical University, China, Haiqing Pei has established himself as a leading expert in the strength and life assessment of aero-engine hot-end components under service conditions. His research focuses on analyzing material degradation, fatigue, and corrosion behavior, aiming to improve the longevity and reliability of critical aerospace components. Through his professional engagements, he has collaborated with academic institutions, industry leaders, and government research agencies, further solidifying his reputation in the field.

🔬 Contributions and Research Focus

Over the past five years, Haiqing Pei has made significant contributions to the field of aerospace engineering, particularly in material behavior under extreme service conditions. His research covers:

  • Strength and Life Assessment: Investigating how hot-end aero-engine components respond to prolonged operational stress.
  • Corrosion and Fatigue Studies: Understanding the microstructural changes that affect material degradation.
  • Advanced Materials Engineering: Developing innovative solutions to enhance material resilience in high-temperature environments.

He has authored 38 research papers in esteemed international journals, including Corrosion Science, International Journal of Mechanical Sciences (IJMS), International Journal of Fatigue (IJF), Scripta Materialia (SCT), and Materials Science and Engineering A (MSEA). Impressively, he has been the first or corresponding author on 30 of these papers, with 17 published in Q1 Top journals and 10 in Q2 journals.

🏆 Accolades and Recognition

Haiqing Pei’s scholarly contributions have earned him widespread recognition in the academic and research community:

  • 1,200 citations in the Scopus database, demonstrating the global impact of his work.
  • Positive references from multiple academician and fellow research teams, both in China and internationally.
  • 16 national invention patent applications, of which 7 patents have been authorized.
  • 5 software copyrights registered, showcasing his expertise in developing computational tools for aerospace engineering.

His research excellence has positioned him as a thought leader in aero-engine component durability, influencing studies conducted by peers and industry experts worldwide.

Publication Top Notes

Fatigue fracture mechanism and life prediction of nickel-based single crystal superalloy with film cooling holes considering initial manufacturing damage

Author: F., Li, Fei, Z., Wen, Zhixun, L., Luo, Lei, H., Pei, Haiqing, Z., Yue, Zhufeng

Journal: International Journal of Fatigue, 

Year: 2025

First Principles Study on Effect of Al-O Element Aggregation on Oxidation of a Ni-based Single Crystal Superalloy

Author: H., Pei, Haiqing, J., Xiao, Jingbo, W., Li, Wei, Z., Wen, Zhixun, Z., Yue, Zhufeng


Journal: Chinese Society of Corrosion and Protection, 

Year: 2025

Investigation on high temperature fatigue-oxidation behavior of Ni-based single crystal with film cooling holes considering arrangement effect

Author: Z., Li, Zhenwei, C., Wang, Cheng, Z., Wen, Zhixun, P., He, Pengfei, Z., Yue, Zhufeng


Journal: Engineering Fracture Mechanics

Year: 2024